Evaluation of the microstructure and properties of Cr3C2 powders added to Vanadis 4 alloy steel via vacuum sintering and heat treatments

Metallic Materials Pub Date : 2021-01-01 DOI:10.4149/km_2019_5_317

S. H. Chang, K. Lee, K. Huang, T. Yang

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引用次数: 2

Abstract

In this research, different ratios (1, 3, and 5 mass%) of chromium carbide (Cr3C2) powders were added to Vanadis 4 alloy steel powders. The various components of the powders underwent vacuum sintering at 1235, 1250, and 1265◦C for 1 h. The heat treatment process included quenched, sub-zero, and tempering treatment afterward. The results showed that the alloy with the addition of 5 mass% Cr3C obtained the optimal mechanical properties after sintering at the temperature of 1250◦C for 1 h. Meanwhile, the apparent porosity decreased to 0.04 %; the transverse rupture strength (TRS) and hardness reached 1821.2 MPa and 82.4 HRA, respectively. However, the hardness declined slightly to 82.3 HRA, but the TRS substantially increased to 2085.0 MPa. The decrease in hardness could be ascribed to the release of internal stress after the tempering process. Significantly, the alloy with a series of heat treatment processes was effective in enhancing strengthening TRS of the Vanadis 4 composites. K e y w o r d s: chromium carbide, Vanadis 4 alloy steel, vacuum sintering, porosity, transverse rupture strength, sub-zero treatment

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真空烧结和热处理对钒4合金钢中添加Cr3C2粉末的组织和性能的影响

在钒4合金钢粉末中加入不同比例(质量% 1、质量% 3、质量% 5)的碳化铬(Cr3C2)粉末。粉末的各种成分分别在1235、1250和1265℃真空烧结1小时。热处理过程包括淬火、低温和回火处理。结果表明:添加5质量% Cr3C的合金在1250◦C温度下烧结1 h后力学性能最佳，表观孔隙率降至0.04%;横向断裂强度(TRS)达到1821.2 MPa，硬度达到82.4 HRA。硬度略有下降，为82.3 HRA，但TRS大幅增加，达到2085.0 MPa。硬度的下降可归因于回火后内应力的释放。该合金经过一系列热处理工艺可以有效提高Vanadis 4复合材料的强化TRS。硬质合金:碳化铬、钒4合金钢，真空烧结，气孔率高，横向断裂强度大，零度以下处理

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Metallic Materials

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