IHS ESDU Loaded pins in axially loaded bars. Maximum elastic stress at hole boundary. 66011

Description
ESDU 66011 gives a method of determining the maximum shear stress at the boundary of a hole in an axially loaded bar with an additional axially aligned load entering via a pin in the hole. The pin may be either a push-fit or interference-fit in the hole. This is typical of the loading system that occurs in multi-pin joints.
Description
ESDU 66011 gives a method of determining the maximum shear stress at the boundary of a hole in an axially loaded bar with an additional axially aligned load entering via a pin in the hole. The pin may be either a push-fit or interference-fit in the hole. This is typical of the loading system that occurs in multi-pin joints.

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Loaded pins in axially loaded bars.  Maximum elastic stress at hole boundary. - 66011 - IHS ESDU
London, United Kingdom
Loaded pins in axially loaded bars. Maximum elastic stress at hole boundary.
66011
Loaded pins in axially loaded bars. Maximum elastic stress at hole boundary. 66011
ESDU 66011 gives a method of determining the maximum shear stress at the boundary of a hole in an axially loaded bar with an additional axially aligned load entering via a pin in the hole. The pin may be either a push-fit or interference-fit in the hole. This is typical of the loading system that occurs in multi-pin joints.

ESDU 66011 gives a method of determining the maximum shear stress at the boundary of a hole in an axially loaded bar with an additional axially aligned load entering via a pin in the hole. The pin may be either a push-fit or interference-fit in the hole. This is typical of the loading system that occurs in multi-pin joints.

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Technical Specifications

  IHS ESDU
Product Category Standards and Technical Documents
Product Number 66011
Product Name Loaded pins in axially loaded bars. Maximum elastic stress at hole boundary.
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