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In this paper, an emphasis is put on describing the elastic and plastic deformation behavior of the bolted joint. The bolt material is assumed to be plastic hardening. A nonlinear combined stress model is established for a typical bolted joint for the purpose of studying its behavior under a yield tightening. The combined effect of axial and torsional stresses in the tightened threaded fastener is considered. A new approach for yield tightening under ideal plastic bolt was proposed, and the effects of the thread and bearing frictional coefficients on the clamp load prediction are evaluated. The prediction precision of deformation behavior of the bolted joint under yield tightening for the strain hardening bolt material are studied experimentally.

In this paper, the effect of bearing friction and the hole clearance on the out-of-plane surface deformation in bolted joints is studied. Series of clamp load-deformation correlations are established for different lubrication conditions and hole clearance values by using both FEA and experiment methods. To study the effect of bearing friction coefficient, values that range from 0.1 to 0.4 are adopted in the FEA model. Three lubrication conditions are used in experiments; namely, clean bolts, oil lubricated bolts and grease lubricated bolts. In order to investigate the effect of hole clearance, four different hole diameters are used in FEA model with M8 bolts; namely, 8.8mm, 9mm, 9.25mm and 9.7mm, three of them are used in the experiments. Experiments are conducted on a single-bolt joint made of an aluminum plate that is fastened with an M8 class 10.9 button head socket screw.

A nonlinear model is established for the clamp load analysis of tightened bolted joints that are subjected to a separating service load that is cyclic in nature. The analysis takes into account the strain hardening of the bolt material to determine its behavior beyond the elastic limit. The bolt tension versus elongation curves during the tightening are established. The clamp load loss is determined due to the permanent set in the fastener after a cyclic separating force has been removed. The fastener material with strain hardening plastic behavior is used for modeling the behavior of the bolted joint system. The effect of some non-dimensional variables on the amount of clamp load loss is investigated. Analytical results are presented for a range of stiffness ratios that simulate both soft and hard joint applications.