Cryogenic rolling impacts on microstructures and properties of a novel Ni–W–Co–Ta medium-heavy alloy

IF 4.7 1区材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING

Transactions of Nonferrous Metals Society of China Pub Date : 2024-04-01 DOI:10.1016/S1003-6326(24)66465-4

Kang-hao SHU , Yi XIONG , Yong LI , Yun YUE , Zheng-ge CHEN , Xiao-qin ZHA , Shun HAN , Chun-xu WANG

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Abstract

A high-strength Ni–W–Co–Ta medium-heavy alloy (MHA) was prepared through the melting–casting–forging followed by cryogenic rolling process. Detailed microstructure and mechanical property characterizations were conducted to unveil the influence of cyrorolling on Ni–W–Co–Ta MHA. The results revealed that initial equiaxial grains were elongated along the rolling direction firstly and then transformed to fibrous texture with increase in accumulated deformation, in which a large number of slip bands were generated to coordinate the intensive plastic deformation. A sharp increase in dislocation density significantly promoted the dislocation interactions, which, in turn, refined the grains down to nanometer scale. The strength and hardness increased significantly with the increase of the deformation, whereas the elongation decreased sharply. The fracture morphology changed from a typical ductile mode for the undeformed sample gradually to quasi-cleavage and ductile mixed mode for 90% deformed material.

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低温轧制对新型 Ni-W-Co-Ta 中重合金微观结构和性能的影响

通过熔铸-锻造-低温轧制工艺制备了一种高强度 Ni-W-Co-Ta 中重合金（MHA）。为了揭示低温轧制对 Ni-W-Co-Ta MHA 的影响，对其进行了详细的显微组织和机械性能表征。结果表明，初始等轴晶粒首先沿轧制方向伸长，然后随着累积变形的增加转变为纤维状组织，其中产生了大量滑移带以协调密集的塑性变形。位错密度的急剧增加极大地促进了位错相互作用，进而使晶粒细化到纳米尺度。强度和硬度随着变形的增加而显著提高，而伸长率则急剧下降。断裂形态从未变形样品的典型韧性模式逐渐转变为 90% 变形材料的准劈裂和韧性混合模式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Transactions of Nonferrous Metals Society of China 工程技术-冶金工程

CiteScore

7.40

自引率

17.80%

发文量

8456

审稿时长

3.6 months

期刊介绍： The Transactions of Nonferrous Metals Society of China (Trans. Nonferrous Met. Soc. China), founded in 1991 and sponsored by The Nonferrous Metals Society of China, is published monthly now and mainly contains reports of original research which reflect the new progresses in the field of nonferrous metals science and technology, including mineral processing, extraction metallurgy, metallic materials and heat treatments, metal working, physical metallurgy, powder metallurgy, with the emphasis on fundamental science. It is the unique preeminent publication in English for scientists, engineers, under/post-graduates on the field of nonferrous metals industry. This journal is covered by many famous abstract/index systems and databases such as SCI Expanded, Ei Compendex Plus, INSPEC, CA, METADEX, AJ and JICST.

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