Effect of Deposition Rate on Microstructure and Properties of GWZ932 Alloy Wire Arc Additive Manufactured Thin-Walled Components

XIE Yong; ZHANG Ruize; FENG Chen; CHEN Lei; LUO Zhiwei; DENG Ze; WANG Fenghua; WANG Fude

doi:10.16080/j.issn1671-833x.2024.21.038

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Effect of Deposition Rate on Microstructure and Properties of GWZ932 Alloy Wire Arc Additive Manufactured Thin-Walled Components

更新时间：2025-10-30

- Effect of Deposition Rate on Microstructure and Properties of GWZ932 Alloy Wire Arc Additive Manufactured Thin-Walled Components
- Aeronautical Manufacturing Technology Vol. 67, Issue 21, Pages: 38-46(2024)
- 作者机构：
  
  1. 首都航天机械有限公司,北京,100076
  2. 航空工业江西洪都航空工业集团有限责任公司,南昌,330024
  3. 上海交通大学,上海,200240
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2024.21.038
  CLC：
- Published：2024
- 稿件说明：
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谢勇，张睿泽，冯晨，陈雷，罗志伟，邓泽，王锋华，王福德. 沉积速率对GWZ932镁合金电弧增材制造组织和性能的影响[J]. 航空制造技术, 2024, 67(21): 38-46.

XIE Yong, ZHANG Ruize, FENG Chen, CHEN Lei, LUO Zhiwei, DENG Ze, WANG Fenghua, WANG Fude. Effect of Deposition Rate on Microstructure and Properties of GWZ932 Alloy Wire Arc Additive Manufactured Thin-Walled Components[J]. Aeronautical Manufacturing Technology, 2024, 67(21): 38-46.
谢勇，张睿泽，冯晨，陈雷，罗志伟，邓泽，王锋华，王福德. 沉积速率对GWZ932镁合金电弧增材制造组织和性能的影响[J]. 航空制造技术, 2024, 67(21): 38-46. DOI： 10.16080/j.issn1671-833x.2024.21.038.

XIE Yong, ZHANG Ruize, FENG Chen, CHEN Lei, LUO Zhiwei, DENG Ze, WANG Fenghua, WANG Fude. Effect of Deposition Rate on Microstructure and Properties of GWZ932 Alloy Wire Arc Additive Manufactured Thin-Walled Components[J]. Aeronautical Manufacturing Technology, 2024, 67(21): 38-46. DOI： 10.16080/j.issn1671-833x.2024.21.038.

摘要

冷金属过渡电弧增材制造（WAAM）是一种新型的快速成形技术，可以用于制造具有复杂形状的高性能结构件。采用冷金属过渡电弧增材制造工艺在不同的沉积速率下制备了GWZ932镁稀土合金单道多层薄壁构件，并研究了沉积速率对试样的成形质量、微观组织和力学性能的影响。结果表明，在其他成形参数一定时，随着沉积速率从4.5 mm/s增加到7.5 mm/s，沉积层的熔宽和层高均减小。沉积速率增加，晶粒尺寸减小，这是成形过程中热输入量降低，熔池凝固速度加快导致。构件的力学性能随着沉积速率先增加后降低，在6 mm/s沉积速率下合金表现出最佳力学性能，屈服强度、抗拉强度、延伸率分别为161 MPa、236 MPa和4.5%，力学性能表现出各向同性，断口表现出明显的脆性断裂特征。

Abstract

Wire arc additive manufacturing (WAAM)

as a novel rapid prototyping technology

can be applied to fabricate high-mechanical-property components with complex shape. Thin-walled components of GWZ932 alloy were fabricated by WAAM based on cold metal transfer (WAAM-CMT) with different deposition rates

and the microstructure evolution and mechanical properties were studied. The results show that as the deposition rate increases from 4.5 mm/s to 7.5 mm/s

the average height and width of deposition layers both decrease. The reduction of heat input also leads to significant grain refinement. At the deposition rate of 6 mm/s

the alloy shows the best mechanical properties

with the yield strength

tensile strength

and elongation of 161 MPa

236 MPa

and 4.5%

respectively. The mechanical properties exhibit isotropy

and the fracture surface shows obvious characteristics of brittle fracture.

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