[期刊论文] 褚永朋,文浩,陈提,Nonlinear modeling and identification of an aluminum honeycomb panel with multiple bolts, Shock and Vibration, 2016, Volume 2016.

发布者:孙加亮发布时间:2020-04-15浏览次数:215

Nonlinear modeling and identification of an aluminum honeycomb panel with multiple bolts

 Yongpeng Chu, Hao Wen, Ti Chen


Abstract: This paper focuses on the nonlinear dynamics modeling and parameter identification of an Aluminum Honeycomb Panel (AHP) with multiple bolted joints. Finite element method using eight-node solid elements is exploited to model the panel and the bolted connection interface as a homogeneous, isotropic plate and as a thin layer of nonlinear elastic-plastic material, respectively. The material properties of a thin layer are defined by a bilinear elastic plastic model, which can describe the energy dissipation and softening phenomena in the bolted joints under nonlinear states. Experimental tests at low and high excitation levels are performed to reveal the dynamic characteristics of the bolted structure. In particular, the linear material parameters of the panel are identified via experimental tests at low excitation levels, whereas the nonlinear material parameters of the thin layer are updated by using the genetic algorithm to minimize the residual error between the measured and the simulation data at a high excitation level. It is demonstrated by comparing the frequency responses of the updated FEM and the experimental system that the thin layer of bilinear elastic-plastic material is very effective for modeling the nonlinear joint interface of the assembled structure with multiple bolts.

 

原文链接: https://www.hindawi.com/journals/sv/2016/1276753/