Vibration Response Evaluation under Shock-Type Loading with Emphasis on Finite Element Model Updating

Abstract EN

In some cases, impulse- or shock-type excitations as the dynamic loading are inevitable, and obtaining proper response with the well-known numerical methods is not easy.

This paper focuses on dynamic response estimation against short-time loading with an updated finite element model using frequency response functions (FRF) and particle swarm optimization (PSO) technique.

Because there is not an analytical method for assessing the numerical responses under shock-type excitations, in this paper, experimental tests are designed on a laboratory scale to evaluate the numerical responses.

The vibration responses of the system against shock loading are compared with the Newmark average acceleration scheme and also with experimental data.

The results reveal that the unconditionally stable Newmark method against regular loads has an appropriate performance.

Still, under short-time loading, it faces numerical damping error, and this method should not be blindly applied under shock-type loads.