添加Cr3C2–TaC–TiC粉末对钒23高速钢真空烧结、亚零度和热处理组织特征的原位TEM观察

IF 1.9 4区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Powder Metallurgy Pub Date : 2022-05-26 DOI:10.1080/00325899.2022.2080157

Shih-Hsien Chang, C. Chang, K. Huang

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引用次数: 1

摘要

摘要本研究在钒23高速钢粉末中添加了不同比例的碳化铬、碳化钽和碳化钛粉末。复合粉末在1230、1245、1260和1275°C下使用真空烧结1 h、实验结果表明，添加0.6质量%Cr3C2–0.2质量%TaC–0.2质量%TiC在1245°C下烧结1 h.同时，表观孔隙率降至0.23%，横向断裂强度和硬度达到2470.7 MPa和78.5 HRA。最佳烧结的钒23复合材料（0.2 T）经过一系列的热处理，横向断裂强度和硬度值明显提高到2693.6 MPa和84.0HRA。EBSD和TEM结果证实，在0.2 真空烧结和亚零度热处理后的T试样。

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In situ TEM observation of the microstructure characteristics of the vacuum sintering, sub-zero and heat treatments of Vanadis 23 high-speed steel by adding Cr3C2–TaC–TiC powders

ABSTRACT This research added different ratios of chromium carbides, tantalum carbide, and titanium carbide powders to Vanadis 23 high-speed steel powders. The composite powders utilised vacuum sintering at 1230, 1245, 1260, and 1275°C for 1 h, respectively, and the experimental results show that good mechanical properties were obtained by the addition of 0.6 mass% Cr3C2–0.2 mass% TaC–0.2 mass% TiC sintered at 1245°C for 1 h. Meanwhile, the apparent porosity was decreased to 0.23%, and the transverse rupture strength and hardness reached 2470.7 MPa and 78.5 HRA, respectively. When optimally sintered Vanadis 23 composites (0.2 T) underwent a series of heat treatments, the transverse rupture strength and hardness values were obviously enhanced to 2693.6 MPa and 84.0 HRA after quenching, and sub-zero and tempering treatments. The EBSD and TEM results confirm that the MC, M 6C, M 7C3, and M 23C6-type carbides appeared in the 0.2 T specimen after vacuum sintering and sub-zero heat treatments.

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来源期刊

Powder Metallurgy 工程技术-冶金工程

CiteScore

2.90

自引率

7.10%

发文量

审稿时长

3 months

期刊介绍： Powder Metallurgy is an international journal publishing peer-reviewed original research on the science and practice of powder metallurgy and particulate technology. Coverage includes metallic particulate materials, PM tool materials, hard materials, composites, and novel powder based materials.