Combustion Synthesis of Titanium-based Cemented Carbides

机译：钛基碳化碳化物的燃烧合成

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TiC-Fe system cermets and TiC-SUS310L (TiC-SS) system cermets with fully relative density have been produced from elemental powders via self-propagating high-temperature synthesis (SHS) reaction combined with pseudo-hot isostatic pressing. X-ray diffraction (XRD) analysis showed that the SHS products consist of TiC and the binder phase of Fe or SS. Metallographic analysis revealed TiC particles of several micrometer size were homogeneously dispersed in the binder phase. Regardless of differences in the binders, both cermets have similar tendencies: their relative densities increased and their hardness and compressive strengths decreased with increases in the volume fraction of either Fe or SS. In addition, the cermets used stainless steel as the binder had twice superior corrosion resistance to those used iron and also their hardness and compressive strength showed excellent values.

机译：通过自综合的高温合成（SHS）反应与伪热等静压，由元素粉末产生具有完全相对密度的TIC-FE系统CERMET和TIC-SUS310L（TIC-SS）系统金属陶瓷。 X射线衍射（XRD）分析表明，SHS产品由TIC和Fe或SS的粘合剂相组成。金相分析显示，几微米尺寸的TiC颗粒均匀地分散在粘合剂相中。无论粘合剂的差异如何，两个金属陶瓷都具有相似的趋势：它们的相对密度增加，并且它们的硬度和抗压强度随着Fe或SS的体积分数的增加而降低。此外，CERMETS使用不锈钢作为粘合剂的耐腐蚀性两倍，对二手铁以及它们的硬度和抗压强度显示出优异的值。

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《International Conference on Processing Manufacturing of Advanced Materials》|2009年||共6页
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Tomohiro Tanaka; Kiyotaka Matsuura; Keisuke Kojima; Munekazu Ohno;
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中图分类 TB3-53;
关键词
Powder metallurgy; Self-propagating High-temperature Synthesis; Pseudo-Hot Isostatic Pressing; Cermet; Hard metal;

机译：粉末冶金;自蔓延高温合成;伪热等静压;金属陶瓷;硬金属;

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Combustion Synthesis of Titanium-based Cemented Carbides

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