材料科学
小型化
电子设备和系统的热管理
导电体
热传导
热的
接口(物质)
散热膏
机械工程
纳米技术
数码产品
热阻
复合数
比例(比率)
复合材料
工程物理
可穿戴技术
领域(数学)
结构材料
热工
钥匙(锁)
导电的
可穿戴计算机
芯(光纤)
聚合物
热导率
导电聚合物
表征(材料科学)
界面热阻
作者
Zining Guo,Qingxia He,Yufan Song,Huitao Yu,Mengmeng Qin,Wei Feng
摘要
Electronic devices are rapidly advancing toward miniaturization and integration. This trend creates an urgent demand for flexible polymer-based thermally conductive composites. These materials must integrate high thermal conductivity, lightweight properties, and mechanical flexibility. This review systematically summarizes the latest research progress in such composites, focusing on multidimensional structural design, thermal conduction mechanisms, interface engineering strategies, and practical applications. The core content covers the structural design and preparation technologies of 1D (fibers), 2D (films), and 3D (networks/scaffolds) composites, including wet spinning, electrospinning, vacuum filtration, template methods, 3D printing, and other key processes. Additionally, the thermal conduction mechanisms regulated by these structures are analyzed, and the critical role of interface engineering in reducing interfacial thermal resistance is emphasized. The review also discusses the application prospects of these composites in thermal interface materials, wearable devices, and intelligent thermal management systems. Finally, the current challenges and future development directions are proposed, aiming to provide theoretical reference and technical support for breaking through the bottlenecks in the field of flexible thermal management materials.
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