Affiliation:
1. Reliability Physics and Application Technology of Electronic Component Key Laboratory the fifth Electronics Research Institute of the Ministry of Information Industry Guangzhou 510610 China
2. Reliability Research and Analysis Centre the fifth Electronics Research Institute of the Ministry of Information Industry Guangzhou 510610 China
3. Zhuhai Vanteque Specialty Engineering Plastics Co. Ltd. Zhuhai 519050 China
4. College of Light Chemical Industry and Materials Engineering Shunde Polytechnic Foshan 528333 China
Abstract
AbstractDevelopment of fifth‐generation technology leads to a growing demand for materials with exceptional thermal property, mechanical strength, and low dielectric loss. However, ensuring the broad application of such materials by comprehensively investigating their aging mechanisms and service lifetimes remains a challenge. In this work, we have developed a glass fiber (GF) reinforced liquid crystal polymer composite (GF/LCP) and conducted a thorough exploration of its aging mechanism, behavior, and service lifetime under thermal and oxidative conditions. On the basis of the general Arrhenius model, the composite maintains a high level of functionality for a remarkable 18 years at 150 °C and 1.5 years at 200 °C. Despite the extremely high thermal resistance of GF/LCP composite, the LCP matrix exhibits localized brittle fracture, and the main chains still undergo gradual degradation to generate phenolic groups, which ultimately leads to severe pulverization and mass loss. However, a high degree of connection maintenance between GF and LCP components is still reserved. This work provides a valuable reference for the reliable application of 5G materials under thermal and oxidative conditions.
Subject
Materials Chemistry,Polymers and Plastics,Organic Chemistry,General Chemical Engineering
Cited by
4 articles.
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