弹道极限
复合数
结构工程
有限元法
材料科学
穿孔
桥接(联网)
接触力
变形(气象学)
弯曲
弹道冲击
临界电离速度
复合材料
机械
工程类
射弹
物理
计算机科学
冶金
量子力学
冲孔
计算机网络
作者
Masaaki NISHIKAWA,K. Hemmi,N. Takeda
标识
DOI:10.1016/j.compstruct.2010.11.012
摘要
We presented a numerical simulation to address the impact-induced deformation and damage of composite plates subjected to soft-body, high-velocity impacts for application to the bird-strike problem of composite fan blades. A new stabilized contact algorithm was developed based on the Lagrange multiplier method to predict appropriate impact forces applied to the plate, in order to solve soft-body impact at high velocity without causing severe numerical instabilities. The bird-strike impact on composite fan blade was simply modeled by discussing the damage characteristics of a unidirectional composite plate. Combining the model of a soft-body impactor with an appropriate contact algorithm, we could capture the transition from the global bending mode at low velocity to the local deformation mode at high velocity, enabling a discussion of the ballistic limit using the damage analysis of the laminate. As the impact velocity increased, the damage in the composite changed from bending-induced matrix-cracking to an intensive fiber-breakage mode causing local shear perforation. The damage mode transition allows us to detect the transition velocity as a ballistic limit, which is one of the critical factors for discussing the bird-strike resistance of composite fan blades.
科研通智能强力驱动
Strongly Powered by AbleSci AI