机构地区:[1]大连交通大学材料科学与工程学院,辽宁大连116028 [2]大连理工大学/三束材料改性教育部重点实验室,辽宁大连116024
出 处:《材料研究与应用》2025年第2期239-248,共10页Materials Research and Application
基 金:国家自然科学基金面上基金项目(52171134);大连市科技创新基金应用基础研究项目(2022JJ12GX039);大连市优秀青年科技人才项目(2022RY14)。
摘 要:高性能引线框架铜合金在电子封装行业中扮演着核心角色,对电子设备的性能和稳定性具有决定性的影响。5G和人工智能技术的发展使得对这类材料的需求激增,对其性能的要求也越来越高。首先,对引线框架铜合金的发展历程从Fe-Ni-Co系、Cu-Fe系到Cu-Ni-Si系进行了概述,同时强调了材料研究的重要性。其次,系统介绍了铜合金的制备技术、性能评价,深入分析了成分设计、微量元素添加、热处理和变形工艺对Cu-Ni-Si系合金性能的影响,强调了微量元素(如Al、Mg、Co、Cr、Ag、P和Ti)的添加能显著提升合金的力学性能和电导率,而精确的热处理和变形工艺对优化合金的微观结构和宏观性能至关重要。最后,在分析现有研究的基础上,总结了高性能引线框架铜合金所面临的挑战,如制备工艺的复杂性、性能调控的难度和市场竞争的激烈程度,预测了未来发展趋势,包括技术创新、环保可持续性、智能化功能化和国际合作的必要性。研究高性能引线框架铜合金具有重要的学术和市场价值,对电子信息技术的进步至关重要,未来的研究应探索新的合金设计、制备和性能调控技术,以满足日益增长的性能需求,而环保、智能化、国际合作将是推动该领域发展的关键。对引线框架铜合金的研究进行总结,为相关后续研究和实践提供了参考,对促进其创新和发展具有借鉴意义。In the electronic packaging industry,high-performance lead frame copper alloys play a pivotal role,exerting a decisive influence on the performance and stability of electronic devices.The development of 5G and artificial intelligence technologies has led to a surge in demand for such materials,with increasingly stringent performance requirements.This article first outlines the development history of lead frame copper alloys,progressing from the Fe-Ni-Co,Cu-Fe,to Cu-Ni-Si systems,emphasizing the importance of material research.Subsequently,it systematically introduces the preparation techniques and performance evaluation of copper alloys,and delves into the impact of composition design,trace element addition,heat treatment,and deformation processes on the properties of Cu-Ni-Si alloys.The article highlights that the addition of trace elements such as Al,Mg,Co,Cr,Ag,P,and Ti can significantly enhance the mechanical properties and electrical conductivity of the alloys,while precise heat treatment and deformation processes are crucial for optimizing the microstructure and macroscopic properties of the alloys.Based on an analysis of existing research,the article summarizes the challenges faced by high-performance lead frame copper alloys,including the complexity of preparation processes,difficulties in performance control,and fierce market competition.At the same time,it points out the challenges faced by high-performance lead frame copper alloys,such as complex preparation processes,difficulties in performance control,and market competition.The article also predicts future trends,including technological innovation,environmental sustainability,intelligent functionalization,and the necessity for international cooperation.Research on high-performance lead frame copper alloys holds significant academic and market value,and is crucial for the advancement of electronic information technology.Future research should explore new alloy design,preparation,and performance control technologies to meet the growing performance dema
关 键 词:引线框架铜合金 CU-NI-SI 制备技术 微量元素 热处理和变形工艺 力学性能 电导率 微观结构
分 类 号:TG14[一般工业技术—材料科学与工程]
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