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电弧增材制造NiTi形状记忆合金研究进展

李仲瀚刘高飞李诗翰王协彬郝世杰

材料工程2025，Vol.53Issue(5)：103-118,16.

材料工程2025，Vol.53Issue(5)：103-118,16.DOI:10.11868/j.issn.1001-4381.2024.000717

电弧增材制造NiTi形状记忆合金研究进展

Research progress in wire arc additive manufacturing of NiTi shape memory alloys

李仲瀚 ¹刘高飞 ¹李诗翰 ¹王协彬 ²郝世杰¹

作者信息

1. 中国石油大学(北京)新能源与材料学院,北京 102249
2. 山东大学材料科学与工程学院,济南 250061
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摘要

Abstract

NiTi shape memory alloys(SMAs)have found widespread applications due to their unique superelasticity and shape memory effects.However,traditional manufacturing methods face challenges in fabricating complex geometries and precisely controlling the microstructure NiTi alloys.Wire arc additive manufacturing(WAAM),with its layer-by-layer deposition characteristics,offers a novel solution for NiTi alloy fabrication.This paper reviews the research progress in WAAM NiTi shape memory alloys,with emphasis on the influence of process parameters on microstructure,phase transformation behavior,and mechanical properties.The advantages and disadvantages of different arc processes(such as gas metal arc welding,gas tungsten arc welding,and cold metal transfer)in NiTi alloy fabrication are analyzed,along with recent achievements in forming quality,phase transformation temperature control,and mechanical properties through WAAM technology.Particular attention is given to the significant microstructural heterogeneity and oxidation issues arising from high heat input,low cooling rates,and repeated thermal cycling during the layer-by-layer deposition process,which adversely affect mechanical properties and superelastic performance.To address these challenges,strategies including process optimization,active cooling,third element addition,and heat treatment are proposed to improve material homogeneity.Furthermore,this paper discusses the heterogeneous structure design of NiTi alloys with other metals,highlighting the potential of WAAM in fabricating multi-material composite structures for high-performance devices.While WAAM demonstrates advantages in fabricating complex geometries and multi-material structures,challenges remain regarding oxidation,element vaporization,and poor interlayer bonding.Future research should focus on heat treatment optimization and microstructural control,development of novel multi-metal composites,and exploration of innovative approaches to enhance interfacial bonding and oxidation resistance,thereby further improving NiTi alloy performance and expanding their application domains.

关键词

NiTi形状记忆合金/电弧增材制造/微观组织/功能特性/异质结构

Key words

NiTi shape memory alloys/wire arc additive manufacturing/microstructure/functional property/heterogeneous structure

分类

金属材料

引用本文复制引用

李仲瀚,刘高飞,李诗翰,王协彬,郝世杰..电弧增材制造NiTi形状记忆合金研究进展[J].材料工程,2025,53(5):103-118,16.

基金项目

国家重点研发计划(2022YFB4600500) （2022YFB4600500）

国家安全学术基金(U2130201,U2330105) （U2130201,U2330105）

材料工程

OA北大核心

ISSN：1001-4381

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