Stock Drive Products & Sterling Instrument - SDP/SI Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint A 5Q 8-D316

Description
Couplings Types Couplings can be divided into two categories: flexible and rigid. Both types are used to connect two rotating shafts driven by a motor and transmit torque and angular velocity; however, flexible couplings and shafts are designed to accommodate angular misalignment, angular offset, axial movement, and a variety of load conditions. A flexible coupling is pliable due to the twisting and compression of a durable, adaptable material, like neoprene, rubber, or silicone. Flexibility can also be achieved with thin metal disks, corrugated aluminum bellows (bellows couplings), or even a stainless-steel ball (miniature ball couplings). Some materials can provide vibration reduction, as in our precision flexible antivibration couplings. Rigid couplings are limited by comparison; rigid couplings are used when shafts are already positioned in precise lateral and angular alignment. Their rigid design inhibits shaft misalignment. They can generally transmit more power than flexible couplings due to their rigidity. Even the most complicated application challenges can be solved by our skilled engineers, they will identify the best coupling solution for your application. SDP/SI provides a comprehensive range of rigid and flexible couplings. Many of our precision couplings, including the Miniature Bellows Coupling and the Neo-Flex Coupling, have our patented Fairloc® Hub design, which solves phasing, timing, positioning, and frequent removal problems. For more about the easily adjustable Fairloc® hub design click here. Precision Magnetic Disk Couplings Precision Flexible Bellows Couplings Precision Miniature Ball Couplings Precision Flexible Antivibration Couplings 1 2 3 4
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Description
Couplings Types Couplings can be divided into two categories: flexible and rigid. Both types are used to connect two rotating shafts driven by a motor and transmit torque and angular velocity; however, flexible couplings and shafts are designed to accommodate angular misalignment, angular offset, axial movement, and a variety of load conditions. A flexible coupling is pliable due to the twisting and compression of a durable, adaptable material, like neoprene, rubber, or silicone. Flexibility can also be achieved with thin metal disks, corrugated aluminum bellows (bellows couplings), or even a stainless-steel ball (miniature ball couplings). Some materials can provide vibration reduction, as in our precision flexible antivibration couplings. Rigid couplings are limited by comparison; rigid couplings are used when shafts are already positioned in precise lateral and angular alignment. Their rigid design inhibits shaft misalignment. They can generally transmit more power than flexible couplings due to their rigidity. Even the most complicated application challenges can be solved by our skilled engineers, they will identify the best coupling solution for your application. SDP/SI provides a comprehensive range of rigid and flexible couplings. Many of our precision couplings, including the Miniature Bellows Coupling and the Neo-Flex Coupling, have our patented Fairloc® Hub design, which solves phasing, timing, positioning, and frequent removal problems. For more about the easily adjustable Fairloc® hub design click here. Precision Magnetic Disk Couplings Precision Flexible Bellows Couplings Precision Miniature Ball Couplings Precision Flexible Antivibration Couplings 1 2 3 4
Request a Quote
Datasheet
Datasheet Summary
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The Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint, part number A 5Q 8-D316, is designed for use in various applications requiring reliable torque transmission. It is constructed from alloy steel, providing durability and strength. The joint supports a maximum working angle of 25¬8 for power-driven applications and 45¬8 for hand rotation applications. For intermittent running conditions, the joint can operate under load for less than 15 minutes, with specific angle of operation limits based on the speed in RPM. Continuous running conditions allow for operation from 15 minutes to 8 hours, with defined angle limits as well. The static breaking torque ratings vary depending on the specific application and conditions, ensuring that the joint can handle the required loads effectively. Engineers should consider this universal joint for projects that demand a robust coupling solution with defined operational parameters.

Datasheet Summary
Powered by GS/AI

The Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint, part number A 5Q 8-D316, is designed for use in various applications requiring reliable torque transmission. It is constructed from alloy steel, providing durability and strength. The joint supports a maximum working angle of 25¬8 for power-driven applications and 45¬8 for hand rotation applications. For intermittent running conditions, the joint can operate under load for less than 15 minutes, with specific angle of operation limits based on the speed in RPM. Continuous running conditions allow for operation from 15 minutes to 8 hours, with defined angle limits as well. The static breaking torque ratings vary depending on the specific application and conditions, ensuring that the joint can handle the required loads effectively. Engineers should consider this universal joint for projects that demand a robust coupling solution with defined operational parameters.

Suppliers

Company
Product
Description
Supplier Links
Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint - A 5Q 8-D316 - Stock Drive Products & Sterling Instrument - SDP/SI
Hicksville, NY, United States
Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint
A 5Q 8-D316
Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint A 5Q 8-D316
Couplings Types Couplings can be divided into two categories: flexible and rigid. Both types are used to connect two rotating shafts driven by a motor and transmit torque and angular velocity; however, flexible couplings and shafts are designed to accommodate angular misalignment, angular offset, axial movement, and a variety of load conditions. A flexible coupling is pliable due to the twisting and compression of a durable, adaptable material, like neoprene, rubber, or silicone. Flexibility can also be achieved with thin metal disks, corrugated aluminum bellows (bellows couplings), or even a stainless-steel ball (miniature ball couplings). Some materials can provide vibration reduction, as in our precision flexible antivibration couplings. Rigid couplings are limited by comparison; rigid couplings are used when shafts are already positioned in precise lateral and angular alignment. Their rigid design inhibits shaft misalignment. They can generally transmit more power than flexible couplings due to their rigidity. Even the most complicated application challenges can be solved by our skilled engineers, they will identify the best coupling solution for your application. SDP/SI provides a comprehensive range of rigid and flexible couplings. Many of our precision couplings, including the Miniature Bellows Coupling and the Neo-Flex Coupling, have our patented Fairloc® Hub design, which solves phasing, timing, positioning, and frequent removal problems. For more about the easily adjustable Fairloc® hub design click here. Precision Magnetic Disk Couplings Precision Flexible Bellows Couplings Precision Miniature Ball Couplings Precision Flexible Antivibration Couplings 1 2 3 4

Couplings Types

Couplings can be divided into two categories: flexible and rigid. Both types are used to connect two rotating shafts driven by a motor and transmit torque and angular velocity; however, flexible couplings and shafts are designed to accommodate angular misalignment, angular offset, axial movement, and a variety of load conditions. A flexible coupling is pliable due to the twisting and compression of a durable, adaptable material, like neoprene, rubber, or silicone.


Flexibility can also be achieved with thin metal disks, corrugated aluminum bellows (bellows couplings), or even a stainless-steel ball (miniature ball couplings). Some materials can provide vibration reduction, as in our precision flexible antivibration couplings.

Rigid couplings are limited by comparison; rigid couplings are used when shafts are already positioned in precise lateral and angular alignment. Their rigid design inhibits shaft misalignment. They can generally transmit more power than flexible couplings due to their rigidity.

Even the most complicated application challenges can be solved by our skilled engineers, they will identify the best coupling solution for your application. SDP/SI provides a comprehensive range of rigid and flexible couplings. Many of our precision couplings, including the Miniature Bellows Coupling and the Neo-Flex Coupling, have our patented Fairloc® Hub design, which solves phasing, timing, positioning, and frequent removal problems. For more about the easily adjustable Fairloc® hub design click here.


Precision Magnetic Disk Couplings


Precision Flexible Bellows Couplings


Precision Miniature Ball Couplings


Precision Flexible Antivibration Couplings


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Supplier's Site Datasheet

Technical Specifications

  Stock Drive Products & Sterling Instrument - SDP/SI
Product Category Universal Joints
Product Number A 5Q 8-D316
Product Name Alloy Steel, Single Joint, 2.25in Overall Length Universal Joint
Joint Type Single
Operating Angle 25 degrees
Maximum Torque 540 In-lbs (623 kg-cm)
Maximum Speed 1750 rpm
Material Alloy Steel
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