This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has threads specified as COARSE under the Unified system of threads designed unifying the original American National design and the United Kingdom Whitworth design for inch dimensioned threads. This unified system brought about general interchangeability of threads achieved through the standardization of thread form, diameter-pitch combinations and limits of size. Under the Unified system, however, the pitch diameter tolerance of the internal thread is uniformly 30% greater than that of the external thread. Thus the clamping does not align as squarely to the axis of the drive mechanism as does the bearing series.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has sixteen threads per inch in accordance with the Unified Constant Pitch system of thread formulations. These sixteen threads are preferably designed in large diameters requiring fine pitch threads for greater tensile strength. They are very applicable in adjusting collars and retaining nuts for bearing and power transmission assemblies where greater holding power and greater precision are desired together with more common fractional delineation of the components, especially where tapered roller bearings are used.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of 2 piece CLAMP NUTS has the threads specified as FINE under the Unified system. These CLAMP NUTS better serve where a closer ratio is desired between the static strength of the shaft or spindle and the thread, where length of thread engagement is limited, where a smaller lead angle is desired, or where a thinner tubular wall for the external threaded member is desired. The external FINE threads have greater tensile stress area than comparable sizes with COARSE threads (about 10 percent stronger due to this greater cross section area). Thus FINE threads become very beneficial when resistance to stripping of threads equals or exceeds the tensile load carrying capacity of the externally threaded member. Lastly they can be more precisely adjusted because of their smaller helix angle.
This series of CLAMP NUTS has the bearing threads specified to the ISO Metric standards, fits, and tolerances thus are fully interchangeable with metric retaining devices increasingly used in bearing and other power transmission assemblies. These threads are in accordance with the ISO Standard 965, however, the thread is upgraded to 5H to make comparable with American quality.
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Product Category | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts | Precision Locknuts |
Product Number | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut | Clampnut |
Product Name | CNB-07 | SNF16-14 | CNM-19 | CNB-24 | CNB-06 | CNC10-11 | CNM-03 | SNS24-16 | SNC24-6 | CNM-38 | SNS22-16 | CNC14-9 | CNM-13 | CNS28-16 | SNF7-20 | CNM-12 | CNF3-32 | CNS32-16 | SNS32-16 | CNS24-16 | CNM-15 | CNB-03 | CNM-10 | CNS44-16 | SNF7-20 | CNM-08 | CNC24-6 | CNB-16 | SNC10-11 | CNB-34 | SNF24-12 | CNC6-16 | CNB-28 | CNC12-10 | CNM-26 | CNB-14 | CNF32-12 | CNM-17 | CNB-22 | CNC7-14 | CNB-18 | CNF10-18 | SNS30-16 | CNB-17 | CNS40-16 | SNS20-16 | SNF4-28 | CNS20-16 | CNB-20 | CNB-11 | CNB-38 | CNC8-13 | CNM-04 | CNM-01 | CNS36-16 | CNC4-20 | CNF18-12 | SNF5-24 | SNC14-9 | CNF20-12 | SNF12-16 | CNM-02 | CNB-04 | CNM-056 | CNF16-14 | SNC2-32 | SNS28-16 | CNB-21 | CNF12-16 | SNC16-8 | SNC8-13 | CNM-09 | SNS48-16 | CNF5-24 | CNB-065 | SNF14-14 | CNC5-18 | SNF8-20 | CNS18-16 | CNF4-28 | CNM-05 | CNM-044 | CNB-30 | CNB-15 | CNF14-14 | CNB-13 | SNF5-24 | SNF3-32 | SNF10-18 | SNC6-16 | CNB-01 | SNC5-18 | SNS16-16 | SNF22-12 | CNM-28 | SNF16-12 | CNS22-16 | CNM-40 | CNB-12 | CNM-14 | SNF32-12 | SNS40-16 | CNB-32 | CNB-02 | CNC16-8 | SNS36-16 | CNB-00 | SNF20-12 | CNF7-20 | CNF24-12 | SNS14-16 | SNC12-10 | CNM-30 | CNS30-16 | SNC7-14 | CNM-11 | CNC3-24 | CNM-16 | SNF4-28 | CNM-24 | SNC18-7 | CNF16-12 | SNF6-24 | SNS18-16 | CNS14-16 | SNC22-6 | CNM-36 | CNB-36 | CNB-40 | SNC20-7 | CNC22-6 | CNM-20 | CNC2-32 | SNS44-16 | CNM-21 | CNB-08 | CNM-00 | SNF16-14 | CNC18-7 | CNM-34 | CNB-10 | SNF3-32 | CNF8-20 | CNM-07 | CNM-22 | SNC3-24 | CNB-19 | SNF12-16 | CNS26-16 | CNS48-16 | SNF32-12 | SNC4-20 | CNS16-16 | SNF10-18 | SNF24-12 | CNC20-7 | CNB-09 | CNM-06 | CNB-05 | CNM-32 | CNB-26 | SNF8-20 | SNS26-16 | CNM-18 | SNF16-12 | SNF6-24 | CNF6-24 | CNF22-12 | SNF18-12 | CNM-064 |
Design Units | English; Metric (optional feature) | English | English (optional feature); Metric | English; Metric (optional feature) | English; Metric (optional feature) | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English | English | English | English | English (optional feature); Metric | English; Metric (optional feature) | English (optional feature); Metric | English | English | English (optional feature); Metric | English | English; Metric (optional feature) | English | English; Metric (optional feature) | English | English | English; Metric (optional feature) | English | English (optional feature); Metric | English; Metric (optional feature) | English | English (optional feature); Metric | English; Metric (optional feature) | English | English; Metric (optional feature) | English | English | English; Metric (optional feature) | English | English | English | English | English; Metric (optional feature) | English; Metric (optional feature) | English; Metric (optional feature) | English | English (optional feature); Metric | English (optional feature); Metric | English | English | English | English | English | English | English | English (optional feature); Metric | English; Metric (optional feature) | English (optional feature); Metric | English | English | English | English; Metric (optional feature) | English | English | English | English (optional feature); Metric | English | English | English; Metric (optional feature) | English | English | English | English | English | English (optional feature); Metric | English (optional feature); Metric | English; Metric (optional feature) | English; Metric (optional feature) | English | English; Metric (optional feature) | English | English | English | English | English; Metric (optional feature) | English | English | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English; Metric (optional feature) | English (optional feature); Metric | English | English | English; Metric (optional feature) | English; Metric (optional feature) | English | English | English; Metric (optional feature) | English | English | English | English | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English | English (optional feature); Metric | English | English (optional feature); Metric | English | English | English | English | English | English | English (optional feature); Metric | English; Metric (optional feature) | English; Metric (optional feature) | English | English | English (optional feature); Metric | English | English | English (optional feature); Metric | English; Metric (optional feature) | English (optional feature); Metric | English | English | English (optional feature); Metric | English; Metric (optional feature) | English | English | English (optional feature); Metric | English (optional feature); Metric | English | English; Metric (optional feature) | English | English | English | English | English | English | English | English | English | English; Metric (optional feature) | English (optional feature); Metric | English; Metric (optional feature) | English (optional feature); Metric | English; Metric (optional feature) | English | English | English (optional feature); Metric | English | English | English | English | English | English (optional feature); Metric |
Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | Bearing Locknut | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Bearing Bore Size | 35 | 95 | 120 | 30 | 17 | 190 | 65 | 60 | 75 | 17 | 50 | 40 | 80 | 170 | 140 | 130 | 70 | 85 | 110 | 90 | 85 | 100 | 55 | 190 | 20 | 12 | 15 | 20 | 28 | 105 | 45 | 32 | 25 | 22 | 150 | 75 | 65 | 12 | 140 | 200 | 60 | 70 | 160 | 15 | 10 | 150 | 55 | 80 | 120 | 180 | 180 | 200 | 100 | 105 | 40 | 10 | 170 | 50 | 35 | 110 | 95 | 45 | 30 | 25 | 160 | 130 | 90 | 32 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Assembly | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots | Slots |
Locking Style | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Locking Shoes | Split with two locking screws | parallel locking screw | Locking Shoes | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Locking Shoes | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Locking Shoes | parallel locking screw | parallel locking screw | Locking Shoes | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | Locking Shoes | parallel locking screw | parallel locking screw | Split with two locking screws | Split with two locking screws | parallel locking screw | Locking Shoes | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | Split with two locking screws | Split with two locking screws | Split with two locking screws | parallel locking screw | Split with two locking screws | Locking Shoes | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | Locking Shoes | parallel locking screw | parallel locking screw | parallel locking screw | Locking Shoes | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | Locking Shoes | Split with two locking screws | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | Split with two locking screws | Locking Shoes | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Locking Shoes | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw | Split with two locking screws | parallel locking screw | parallel locking screw | Split with two locking screws | Split with two locking screws | parallel locking screw | Split with two locking screws | Split with two locking screws | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | parallel locking screw | Split with two locking screws | Locking Shoes | parallel locking screw | Split with two locking screws | Split with two locking screws | parallel locking screw | parallel locking screw | Split with two locking screws | parallel locking screw |