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Stress waves propagating through bolted joints

Flicek, Robert C.; Moore, K.J.; Castelluccio, Gustavo M.; Brake, M.R.W.; Truster, T.; Hammetter, C.I.

This paper examines the mechanical response of a simple bolted joint, the Brake–Reuß beam, under shock loading. This is done by creating a high-fidelity finite element model of the beam and subjecting it to a quasi-static bolt load followed by a dynamic shock load. The influence of several parameters on the beam’s response is studied, which include impact force, impact duration, impact location, and residual stress. The results indicate that when the energy input into the beam is held constant, the most influential parameter is the shock’s frequency and that increasing its frequency significantly increases dissipation. The next most influential parameter is the impact location, though its effect is frequency dependent and becomes stronger for higher frequencies. Finally, the results show that while residual stresses can significantly modify the contactpressure distribution, they have minimal influence on the energy dissipated due to friction resulting from shock loading.