首页|Characterization of high-strength bolts and the numerical representation method for an efficient crash analysis
Characterization of high-strength bolts and the numerical representation method for an efficient crash analysis
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
NSTL
Elsevier
? 2022 Elsevier LtdThis paper presents novel insights of a numerical bolt representation approach taking into account damage and failure, suitable for large-scale models as in full vehicle crash simulations. Custom-built experimental equipment combined with digital image correlation enables observation of bolt failure behavior and its physical characteristics under tension, shear as well as combined loading. A fine-meshed model demonstrates the transferability of the physical properties to numerics including the associated restrictions. The experimental and numerical findings are used to develop an efficient substitute bolt model with high prediction accuracy that takes into account the bolt kinematics due to the thread via volume elements. An isotropic constitutive law with linear elastic and multilinear plastic progression supplemented by a phenomenological damage model depicts the bolt material behavior numerically. The observation of the bolt models under different tension and shear ratios provides new insights to the models accuracy which is assessed by an analytically failure envelope.
Bolted connectionsCrashworthinessDamage and failureMaterial calibrationMaterial characterizationSubstitute modeling
Schauwecker F.、Moncayo D.、Middendorf P.
展开 >
Mercedes-Benz AG Research and Development
Institute of Aircraft Design University of Stuttgart
NSTL
Elsevier
