纤维增强复合材料层合板抗侵彻的多尺度模拟方法  

作　　者：李涵 陈长海 鲁程 LI Han;CHEN Changhai;LU Cheng(School of Naval Architecture and Ocean Engineering,Huazhong University of Science and Technology,Wuhan 430074,Hubei,China;Xianning Haiwei Composite Products Co.,Ltd.,Xianning 437100,Hubei,China)

机构地区：[1]华中科技大学船舶与海洋工程学院,湖北武汉430074 [2]咸宁海威复合材料制品有限公司,湖北咸宁437100

出　　处：《高压物理学报》2025年第5期36-47,共12页Chinese Journal of High Pressure Physics

基　　金：国家自然科学基金(52071149);湖北省科技服务类平台专项(2023EGA095);中央高校基本科研业务费专项资金(2019kfyXJJS007)。

摘　　要：针对纤维增强复合材料层合板结构设计和抗侵彻数值仿真需要大量材料参数和动态试验数据的问题,以碳纤维增强复合材料层合板为研究对象,采用多尺度模拟方法,实现了纤维丝-纤维束-层合板的微观-介观-宏观力学性能和抗侵彻能力的全流程数值仿真预测。首先,建立微观代表性体积单元(representative volume elements,RVE),基于最大应力准则,预测出纤维束的力学性能;然后,根据编织结构的空间特征建立介观RVE模型,采用Hashin和Hou的失效准则,预测出宏观等效力学性能;最后,根据已发表的试验数据,建立了宏观弹道侵彻数值模型,提出了一种考虑材料应变率效应的改进Hashin失效准则,进而研究了弹道侵彻作用下纤维增强复合材料层合板的剩余速度和损伤特征。结果表明:试验与仿真得到的剩余速度的相对误差在5%以内,宏观数值模型准确捕捉到了纤维断裂、层间分层等损伤模式,验证了多尺度模拟方法的合理性和准确性;拟合得到了弹道极限速度随板厚变化的关系式,两者呈线性关系,且相关系数达0.97以上。研究结果有助于实现纤维增强复合材料层合板抗侵彻的低成本、短周期结构设计,对纤维增强复合材料层合板的正向性能预测和逆向结构设计均具有重要的科学和工程应用价值。Aiming at the problem that a large number of material parameters and required for the structural design and numerical simulation of penetration resistance of fiber reinforced composite laminates,this article takes carbon fiber reinforced composite laminates as the research object,and adopts multi-scale simulation method to realize the whole process numerical simulation prediction of micro-,meso-,and macro-scale mechanical properties and penetration resistance of fiber-bundle-laminates.Firstly,microscopic representa-tive volume elements(RVE)were established to predict the mechanical properties of fiber bundles based on the maximum stress criterion.Then,based on Hashin and Hou’s failure criteria,the macroscopic equivalent mechanical properties were predicted by the mesoscopic RVE models established according to the spatial characteristics of braided structures.Finally,an improved Hashin failure criterion considering the strain rate effect was proposed,and the numerical model of ballistic penetration was established based on the literature tests to study the residual velocities and damage characteristics.The results show that the errors of residual velocity results are less than 5%,and the macroscopic numerical models can accurately simulate the damage modes such as fiber fracture as well as interlayer delamination,which verifies the rationality and accuracy of multi-scale simulation method in this article.The relationship between the ballistic limit velocity and the thickness of the plate is linear and the correlation coefficient is above 0.97.The findings of this paper can help to realize the design of low-cost and short-period fiber reinforced composite laminates,which has important scientific and engineering application values for property prediction and inverse structural design of fiber reinforced composite laminates.

关 键 词：复合材料层合板 代表性体积单元 多尺度 弹道侵彻 刚度退化 

分 类 号：O347.3[理学—固体力学] O521.2[理学—力学]