首页|期刊导航|航空材料学报|多丝电弧增材制造Ta1.5Mo1.5Nb0.5Zr2Ti难熔高熵合金工艺优化

多丝电弧增材制造Ta1.5Mo1.5Nb0.5Zr2Ti难熔高熵合金工艺优化

狄兴隆周雨菁彭司弋郭跃岭刘长猛

航空材料学报2025，Vol.45Issue(6)：89-100,12.

航空材料学报2025，Vol.45Issue(6)：89-100,12.DOI:10.11868/j.issn.1005-5053.2025.000117

多丝电弧增材制造Ta1.5Mo1.5Nb0.5Zr2Ti难熔高熵合金工艺优化

Process optimization of Ta1.5Mo1.5Nb0.5Zr2Ti refractory high-entropy alloys via multi-wire arc additive manufacturing

狄兴隆 ¹周雨菁 ²彭司弋 ³郭跃岭 ¹刘长猛¹

作者信息

1. 北京理工大学机械与车辆学院,北京 100081
2. 北京理工大学机械与车辆学院,北京 100081||中国电子科技集团公司第二十一研究所,上海 200233
3. 北京理工大学机械与车辆学院,北京 100081||蓝箭航天空间科技股份有限公司,北京 100176
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摘要

Abstract

Refractory high-entropy alloys(RHEAs)are widely used in the aerospace field due to their excellent high-temperature performance.This study employs multi-wire arc additive manufacturing(M-WAAM)technology to fabricate Ta1.5Mo1.5Nb0.5Zr2Ti refractory high-entropy alloy.Using equipment such as optical microscopy(OM)and high-speed cameras,the influence rules of base current,peak current,and peak time ratio on forming quality are investigated.The optimal process parameters for preparing the Ta1.5Mo1.5Nb0.5Zr2Ti alloy are determined(base current 100 A,peak current 300 A,and peak time ratio 35%).Metallographic characterization demonstrates that the fabricated components exhibit excellent forming quality,with unmelted area ratio below 10%and porosity less than 0.5%.To address the melting point differences among various wires,hot-wire technology is employed to facilitate the melting of high-melting-point Ta/Mo wires.For the first time,we propose a"single droplet pre-alloyed transfer"mechanism,elucidating the thermodynamic process of discontinuous liquid bridge transition and subsequent formation of a unified molten droplet from four simultaneously fed wires.Based on the thermodynamic mechanism of synchronous four-wire discontinuous liquid bridge transition forming a unified molten droplet,a"single droplet pre-alloyed transfer"mode is established.Parts deposited under this droplet transfer mode demonstrate good macroscopic morphology and fewer internal defects.Through force analysis of molten droplets,we establish a mechanical model incorporating key factors including gravity,electromagnetic force,and plasma flow force,demonstrating that synchronous non-continuous liquid bridge transition of four wires constitutes a sufficient condition for the formation of a unified molten droplet.Additionally,the developed bead width prediction model provides quantitative guidance for process optimization.This work establishes an important theoretical foundation for M-WAAM of RHEAs.

关键词

多丝电弧增材制造/难熔高熵合金/工艺参数/熔滴过渡/力学模型

Key words

multi-wire arc additive manufacturing/refractory high-entropy alloys/process parameter/droplet transfer/mechanical model

分类

航空航天

引用本文复制引用

狄兴隆,周雨菁,彭司弋,郭跃岭,刘长猛..多丝电弧增材制造Ta1.5Mo1.5Nb0.5Zr2Ti难熔高熵合金工艺优化[J].航空材料学报,2025,45(6):89-100,12.

基金项目

国防基础科研(JCKY2022602C007) （JCKY2022602C007）

航空材料学报

OA北大核心

ISSN：1005-5053

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