摘要
为解决三维编织复合材料嵌入碳纳米管(CNT)纱线传感器优化配置目标多、目标函数不连续问题,实现航天结构制件内部损伤的全面监测,采用非支配邻域免疫算法对多目标优化问题进行了研究。以四步法三维六向编织工艺为依据,分析了CNT纱线传感器的最佳嵌入位置和数量;通过非支配邻近免疫算法实现了CNT纱线传感器优化配置问题的求解,推导出不同尺寸的三维编织复合材料制件嵌入传感器的最优数量和位置。对损伤制件的应力实验及数据分析证明,CNT纱线传感器优化配置结果适用于三维编织复合材料的损伤监测,损伤定位误差小于0.6 mm。该研究为复合材料损伤源定位模型的建立提供参考。
In order to facilitate comprehensive monitoring of the internal damage of aerospace structures,the optimal configuration of 3-D intelligent braided composites embedded with carbon nanotube(CNT)yarns as sensors with multiple targets and discontinuous objective function was studied by using the non-dominant neighborhood immune multi-target optimization algorithm.In this paper,the optimal insertion location and quantity of CNT yarn sensors were analyzed based on the three-dimension-four-step-six-direction braiding process.The optimal allocation problem of CNT yarn sensor was solved by using the non-dominant neighborhood immune multi-objective optimization algorithm,and the optimal number and location of different specimen embedded sensors in the 3-D intelligent braided composite were derived.The stress experiment and data analysis on the damaged specimens prove that the principle of optimal configuration of CNT yarn sensor can be applied for damage monitoring of 3-D braided composite materials with the positioning error less than 0.6 mm.This study lays a foundation for the establishment of intelligent composite damage source identification model.
作者
万振凯
贾敏瑞
包玮琛
WAN Zhenkai;JIA Minrui;BAO Weichen(Engineering Teaching Center, Tiangong University, Tianjin 300387, China;School of Textile Science and Engineering, Tiangong University, Tianjin 300387, China)
出处
《纺织学报》
EI
CAS
CSCD
北大核心
2021年第9期76-82,共7页
Journal of Textile Research
关键词
碳纳米管纱线
非支配邻域免疫算法
传感器优化配置
损伤定位源
三维编织复合材料
carbon nanotube yarn
nondominated neighborhood imnaune algorithm
optimal allocation of sensors
damage location source
3-D braided composite