材料科学
碳纳米管
复合材料
天然橡胶
复合数
结构健康监测
原位
物理
气象学
作者
Qiandiao Wei,Jian Wu,Shixue He,Benlong Su,You Wang
摘要
ABSTRACT In situ monitoring is becoming a technology breakthrough in aviation structural health monitoring, offering significant advancements in system safety and maintenance planning. However, traditional structural health monitoring, involving the permanent integration of sensors into composites, is still quite challenging for cord–rubber flexible structures. This study presents a smart nylon cord (NC) sensor fabricated by dip‐coating carbon nanotubes (CNT) onto a polydopamine‐modified NC (P‐NC) surface. Benefit from the synergistic modification of polydopamine (PDA) and CNTs, the CNT@PDA@NC (CNT/P‐NC) exhibits stable sensing properties (3000 cycles) and mechanical properties (enhanced interface strength of 11.48%). The CNT/P‐NC reinforced nitrile rubber composite (NBR/CNT/P‐NC) exhibits exceptional self‐sensing performance for deformation monitoring under quasi‐static and dynamic mechanical loading. Furthermore, in situ fatigue damage monitoring is realized by the correlation between CNT network conductivity degradation and damage accumulation. The finding shows that the NBR/CNT/P‐NC self‐sensing composites successfully detect internal mechanical information, monitor damage evolution in real‐time (0–250,000 cycles), and provide failure warnings. It has great potential for in situ monitoring of rubber components, including fabric rubber seals on cabin doors.
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