Density, Microstructure, Strength and Fractography of Spark Plasma and Conventionally Sintered Mn Steels

Q4 Materials Science

Powder Metallurgy Progress Pub Date : 2017-12-01 DOI:10.1515/pmp-2017-0010

M. Tenerowicz-Żaba, M. Kupková, M. Kabátová, E. Dudrová, M. Džupon, M. Sułowski

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引用次数: 2

Abstract

Abstract The aim of the study was to investigate Spark Plasma Sintering (SPS) of 1-3%Mn steels and compare the resultant microstructures, strengths and failure mechanisms with those of conventionally sintered materials. SPS was performed in a vacuum of 5 Pa at 1000°C for 15min under a uniaxial pressure of 20 MPa. The heating rate of 100°C/min was applied. For conventional processing, mixtures of powders were prepared in a Turbula mixer for 30 minutes. Samples were single pressed at 660 MPa, according to PN-EN ISO 2740 standard. Sintering of compacts was carried out in a laboratory tube furnace at 1120°C and 1250°C for 60 minutes in a mixture of 95%N2-5%H2. Heating and cooling rates were 75C°/min and 60°C/min, respectively. The density of SPS samples was higher (up to 7.37 g/cm3) than those after conventional sintering (up to 6.7 g/cm3). Yield strengths of SPS samples were in the range 920-1220 MPa, compared to the maximum of 602 MPa for conventionally sintered Fe-3%Mn-0.8%C. Transverse rupture strengths were the same for this alloy, 1234 MPa, but reached 1473 MPa for SPS 2Mn variant. Interfaces in SPS samples were significantly less contaminated with oxides, which is the result of a more favorable microclimate and pressure acting during SPS. These preliminary results indicate that further research on the SPS of Mn steels is warranted.

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火花等离子体和常规烧结Mn钢的密度、组织、强度和断口形貌

摘要研究了1-3%Mn钢的放电等离子烧结(SPS)工艺，并与常规烧结材料进行了显微组织、强度和失效机理的比较。SPS在1000°C, 5 Pa真空，20 MPa单轴压力下进行15min。加热速率为100℃/min。对于常规加工，粉末混合物在湍流混合器中制备30分钟。根据PN-EN ISO 2740标准，样品在660 MPa下单次加压。在实验室管式炉中，在1120℃和1250℃的温度下，在95%N2-5%H2的混合物中烧结60分钟。加热和冷却速度分别为75°C/min和60°C/min。SPS样品的密度(高达7.37 g/cm3)高于常规烧结后的密度(高达6.7 g/cm3)。SPS试样的屈服强度在920 ~ 1220 MPa之间，而Fe-3%Mn-0.8%C常规烧结试样的屈服强度最大值为602 MPa。该合金的横向断裂强度相同，为1234 MPa，而SPS 2Mn合金的横向断裂强度达到1473 MPa。SPS样品的界面氧化物污染明显减少，这是SPS过程中更有利的小气候和压力作用的结果。这些初步结果表明，对Mn钢SPS的进一步研究是有必要的。

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来源期刊

Powder Metallurgy Progress Materials Science-Metals and Alloys

CiteScore

1.00

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0.00%

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