Porosity and Microstructure Iron-Based Graded Materials Sintered by Spark Plasma Sintering and the Conventional Method

Krzysztof Zar?bski; Piotr Putyra; Dariusz Mierzwiński

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Porosity and Microstructure Iron-Based Graded Materials Sintered by Spark Plasma Sintering and the Conventional Method

机译：放电等离子烧结烧结的孔隙度和微结构铁基梯度材料及常规方法

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Using PNC-60 powder with the addition of graphite, cylindrical products characterized by different compositions of core and outer layers were made. Some compacts were sintered via the conventional process, while others were subjected to the spark plasma sintering method (SPS) at different times and temperatures. The gradient microstructure was obtained in the transition zone by mixing powders during die filling, followed by pressing and diffusion during sintering. The effect of sintering parameters on the nature of the gradient zone and the morphology of the pores was shown. After conventional sintering, the gradient zone was wider than it was after SPS. Via SPS, the short sintering time confined the diffusion to a local range, making its influence on the gradient structure negligible. Differences in the microstructure were confirmed by functional description.

机译：使用添加了石墨的PNC-60粉末，制成了具有不同芯层和外层成分的圆柱形产品。一些压块通过常规工艺进行烧结，而另一些压块则在不同的时间和温度下经受火花等离子体烧结法（SPS）。在过渡区通过在压模填充过程中混合粉末，然后在烧结过程中进行压制和扩散来获得梯度微结构。示出了烧结参数对梯度区的性质和孔的形态的影响。在常规烧结之后，梯度区域比在SPS之后更宽。通过SPS，短的烧结时间将扩散限制在局部范围内，从而使其对梯度结构的影响可忽略不计。通过功能描述证实了微观结构上的差异。

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《Metals》 |2019年第2期|共12页
作者
Krzysztof Zar?bski; Piotr Putyra; Dariusz Mierzwiński;
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中图分类矿业工程;
关键词
functional gradient materials (FGM)powder metallurgy (PM)ferrous steelssinteringspark plasma sintering (SPS)porositymicrostructure;

机译：功能梯度材料（FGM）粉末冶金（PM）铁合金烧结火花等离子烧结（SPS）孔隙率微观结构;
入库时间 2022-08-18 11:33:10

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Porosity and Microstructure Iron-Based Graded Materials Sintered by Spark Plasma Sintering and the Conventional Method

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