An Analytical Model for Rotation Stiffness and Deformation of an Antiloosening Nut under Locking Force

Abstract EN

Screw fasteners are undoubtedly one of the most important machine elements due to their outstanding characteristic to provide a high clamping force just with a simplified design.

However, the loosen vibration is their inherent and inevitable fault.

The friction locking approach is one of the basic locking fastener categories by enhancing the bearing load on the contact surface of thread by applying a locking force on an antiloosening nut.

This locking force may cause more severe deformation in the nut.

The contact stress distribution on the nut would be changed and that can cause the variation of the friction torque for the bolt joint.

However, there exists no established design calculation procedure that accounts for the rotation deformation and its stiffness of the antiloosening nut under the locking force.

The main objective of the work is to develop an analytical solution to the rotation deformation problem encountered in the antiloosening nut.

The proposed model is supported by comparison with numerical finite element analysis of different sizes of joint elements and different applied forces.