Microstructure and Properties of ZrC Enhanced Niobium Alloys Fabricated by Selective Laser Melting

LI Donglai; QIN Meng; DONG Peng; WU Zhijun; ZHOU Qingjun; DU Shangzhe; FENG Kai; LI Zhuguo

doi:10.16080/j.issn1671-833x.2024.15.074

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Microstructure and Properties of ZrC Enhanced Niobium Alloys Fabricated by Selective Laser Melting

更新时间：2025-10-30

- Microstructure and Properties of ZrC Enhanced Niobium Alloys Fabricated by Selective Laser Melting
- Aeronautical Manufacturing Technology Vol. 67, Issue 15, Pages: 74-80(2024)
- 作者机构：
  
  1. 首都航天机械有限公司,北京,100076
  2. 上海交通大学,上海,200240
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2024.15.074
  CLC：
- Published：2024
- 稿件说明：
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李东来，秦孟，董鹏，武致军，周庆军，杜尚哲，冯凯，李铸国. 激光选区熔化ZrC增强铌合金的组织与性能研究[J]. 航空制造技术, 2024, 67(15): 74-80.

LI Donglai, QIN Meng, DONG Peng, WU Zhijun, ZHOU Qingjun, DU Shangzhe, FENG Kai, LI Zhuguo. Microstructure and Properties of ZrC Enhanced Niobium Alloys Fabricated by Selective Laser Melting[J]. Aeronautical Manufacturing Technology, 2024, 67(15): 74-80.
李东来，秦孟，董鹏，武致军，周庆军，杜尚哲，冯凯，李铸国. 激光选区熔化ZrC增强铌合金的组织与性能研究[J]. 航空制造技术, 2024, 67(15): 74-80. DOI： 10.16080/j.issn1671-833x.2024.15.074.

LI Donglai, QIN Meng, DONG Peng, WU Zhijun, ZHOU Qingjun, DU Shangzhe, FENG Kai, LI Zhuguo. Microstructure and Properties of ZrC Enhanced Niobium Alloys Fabricated by Selective Laser Melting[J]. Aeronautical Manufacturing Technology, 2024, 67(15): 74-80. DOI： 10.16080/j.issn1671-833x.2024.15.074.

摘要

铌合金在超高温环境具有优异的强度和轻量化优势，但传统加工工艺难以实现对其复杂构件的制备。本研究采用激光选区熔化技术制备了组织致密的Nb52和Nb52–0.1ZrC两种铌合金，通过引入碳化物的方法提高了铌合金的力学性能。研究表明，ZrC的引入显著提高了铌合金的强度，其打印态屈服强度、抗拉强度和塑性应变分别达745.91 MPa、795.45 MPa和1.8%，室温断裂方式为沿晶断裂和穿晶断裂混合断裂模式。本研究扩宽了铌合金的成形工艺，为改善铌合金性能和开发低成本的铌合金体系提供了新的研究思路。

Abstract

Niobium alloys exhibit exceptional strength and lightweight advantages in the ultra-high temperature environment. However

conventional processing techniques face challenges in fabricating intricate components. In this study

two niobium alloys

Nb52 and Nb52 – 0.1ZrC

with dense microstructure

were prepared by selective laser melting (SLM) technology. The results show that the introduction of ZrC carbides significantly improves the strength of SLMed niobium alloys

and its yield strength

tensile strength

and plastic strain in the as-printed state reach up to 745.91 MPa

795.45 MPa

and 1.8%

respectively. Fracture behavior at room temperature exhibits a combination of intergranular fracture and transgranular fracture modes. This work broadens the forming process of niobium alloy

and provides a new research idea for improving the properties of niobium alloys and developing a new low-cost niobium alloy system.

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