Micromechanical characterization of bulk composite prepared by sintering of mechanically alloyed aluminum-316 stainless steel (35 wt%) powder blend

A.Sinha; A.Samanta; I.Manna; W. Lojkowski; P.P.Chattopadhyay

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Micromechanical characterization of bulk composite prepared by sintering of mechanically alloyed aluminum-316 stainless steel (35 wt%) powder blend

机译：通过烧结机械合金化的铝-316不锈钢（35 wt％）粉末共混物制备的块状复合材料的微机械特性

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Present study concerns deformation behavior of the ball milled and consolidated powder blend compris ing 316 stainless steel and elemental Al (65 wt%), studied by the micro- and nano-indentation techniques. With an aim to examine the strain hardening behavior of the consolidated samples, nano-indentation measurements have been carried out by applying variable load at multiple spots and cyclic load at the single spot. Similar experiments have been carried out for the bulk 316-stainless steel plate to compare the results with those obtained from the consolidated samples. The consolidated samples exhibited much higher hardness values than the plate along with high elastic recovery and appreciable work hardening.

机译：本研究涉及通过微压痕和纳米压痕技术研究的，由316不锈钢和元素铝（65 wt％）组成的球磨和固结粉末共混物的变形行为。为了检查固结样品的应变硬化行为，已通过在多个点施加可变载荷和在单个点施加循环载荷来进行纳米压痕测量。对于块状316不锈钢钢板也进行了类似的实验，以将结果与从合并样品中获得的结果进行比较。固结后的样品显示出比板材高得多的硬度值，并具有很高的弹性回复率和明显的加工硬化性。

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来源
《Materials Science and Engineering》 |2011年第18期|p.6034-6038|共5页
作者
A.Sinha; A.Samanta; I.Manna; W. Lojkowski; P.P.Chattopadhyay;
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作者单位

Bengal Engineering and Science University, Shibpur, Howrah 711 103, India;

Bengal Engineering and Science University, Shibpur, Howrah 711 103, India;

Central Class and Ceramic Research Institute, Jadavpur, Kolkata 700032, India;

Institute of High Pressure Physics, Polish Academy of Science, Warsaw, Poland;

Bengal Engineering and Science University, Shibpur, Howrah 711 103, India;

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正文语种 eng
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mechanical alloying; bulk amorphous alloys; intermetallics; mechanical characterization; nanoindentation;

机译：机械合金化;大块非晶合金;金属间化合物机械特性纳米压痕;

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Micromechanical characterization of bulk composite prepared by sintering of mechanically alloyed aluminum-316 stainless steel (35 wt%) powder blend

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