Concurrent Realization of Robust Mechanical Strength and Rapid Self-Healing in Polyimides via a Dynamic Bonding Approach

材料科学 极限抗拉强度 使用寿命 机械强度 复合材料 机械故障 超静定 刚度 双层 粘结强度 人工肌肉 可靠性(半导体) 延伸率 磨损(机械) 单体 灾难性故障 机械负荷 灵活性(工程) 工作(物理) 聚合物 机械系统 自愈 纳米技术 耐久性 热的 制作 机械工程 拉伸试验 实现(概率) 执行机构
作者
Changbo Xie,Zhiqiang Shan,Jing Zhang,Chaowang Guo,L. Tao,Ziheng Yang,Yaoming Zhang,Tingmei Wang,Qihua Wang
出处
期刊:Macromolecules [American Chemical Society]
卷期号:59 (5): 3158-3170
标识
DOI:10.1021/acs.macromol.5c03425
摘要

Polyimides (PIs) are used in cutting-edge engineering fields due to their high mechanical strength, excellent electrical insulation, and low friction coefficient, attributed to their rigid benzene ring structures. However, under prolonged service in harsh environments, PI components are prone to mechanical damage, which substantially increases the risk of operational failure and maintenance costs. Thus, developing self-healing PI materials has become crucial for enhancing operational reliability and extending service life. Nevertheless, achieving a material that simultaneously exhibits high mechanical strength, high healing efficiency, and rapid healing capability remains a formidable challenge. In this work, the formylphenylboronic acid is introduced as a single monomer to concurrently incorporate dynamic imine bonds (-C═N-) and reversible boroxine structures (-B3O3-) into the PI backbone, achieving a “two birds with one stone” molecular design. This strategy endows the resultant PI with excellent mechanical properties (a tensile strength of 87.03 MPa and a break elongation of 21.41%) and a breakthrough self-healing property, enabling repair efficiency of 99.92% and damage repair in just 30 s. Notably, it resolves the critical bottleneck in the field─the typical trade-off between strength/toughness and rapid/healing efficiency─with the achieved efficiency and speed being the highest values reported to date. Furthermore, inspired by the perspiration and healing mechanisms of human skin, a heterogeneous bilayer architecture is constructed to further enhance the healing material’s resistance to extreme mechanical damage such as severe abrasion under heavy-load conditions. This work not only opens up a new avenue for designing integrated materials that combine high strength, thermal stability, and ultrafast self-healing capacity, but also provides a practical strategy for prolonging the service life of PIs in extreme environments while mitigating risks associated with unexpected mechanical failures.
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