首页|期刊导航|材料工程|增材制造钨合金及其强韧化研究进展

增材制造钨合金及其强韧化研究进展OA

Research progress in additive manufacturing of tungsten alloys and their toughening

中文摘要英文摘要

钨合金作为典型的难熔金属材料,具备高硬度、高耐磨性以及良好的射线屏蔽能力,在工业领域具有广泛的应用前景,但成形性较差,液相烧结等传统制备方式难以实现其复杂结构零部件的成形.增材制造技术采用成形平面逐层堆积的方式制备三维结构零部件,在制备复杂构件时具备独特的优势,因此在钨合金零部件制备领域引起了广泛关注.系统介绍了近年来增材制造技术在钨合金制备领域的发展和应用,并进一步探讨了钨合金成形过程中强韧化的影响因素.首先介绍了各项钨合金增材制造技术的国内外研究现状,并对其适用场景进行了总结.然后从第二相颗粒及合金化处理两方面综述了钨合金成形强韧化途径.最后,对增材制造钨合金在成分优化、工艺参数控制、后处理、多材料打印及智能制造集成等领域提高成形合金力学性能、扩展应用领域的发展方向进行了总结与展望.

As a typical refractory metal material,tungsten alloy possesses high hardness,excellent wear resistance,and good radiation shielding ability,making it widely applicable in various industrial fields.However,its poor formability hinders the manufacturing of complex structural components using traditional preparation methods such as liquid phase sintering.Additive manufacturing technology,which fabricates three-dimensional structural parts by layer-wise accumulation of forming planes,has unique advantages in producing complex components.Consequently,it has attracted extensive attention in the field of tungsten alloy component manufacturing.The development and application of additive manufacturing technology in the preparation of tungsten alloys in recent years are systematically introduced,and the influencing factors of tungsten alloy toughening during the forming process are further discussed.Firstly,the current research status of various tungsten alloy additive manufacturing technologies both domestically and internationally is presented,and their applicable scenarios are summarized.Then,the toughening approaches for tungsten alloys during forming,including second-phase particles and alloying treatments,are comprehensively reviewed.Finally,the development direction of additive manufacturing of tungsten alloys in the fields of composition optimization,process parameter control,post-processing,multi-material printing and intelligent manufacturing integration to improve the mechanical properties of formed alloys and expand the application fields is summarized and prospected.

陆继烈;刘安晋;刘坤;王玉洁;张庆霞;张沫;张升

北京科技大学 顺德创新学院,广东 佛山 528399北京科技大学 机械工程学院,北京 100083中国人民解放军32178部队 科技创新研究中心,北京 100012中国人民解放军32178部队 科技创新研究中心,北京 100012中国人民解放军32178部队 科技创新研究中心,北京 100012中国人民解放军32178部队 科技创新研究中心,北京 100012中国人民解放军32178部队 科技创新研究中心,北京 100012

矿业与冶金

钨合金增材制造强韧化力学性能

tungsten alloyadditive manufacturingtougheningmechanical property

《材料工程》 2026 (1)

90-102,13

佛山市人民政府科技创新专项基金(BK21BE015)

10.11868/j.issn.1001-4381.2024.000202

评论