Liquid Phase Sintering of WC-FeAl and WC-Ni_3Al Composites with and without Boron

机译：含硼和不含硼的WC-FeAl和WC-Ni_3Al复合材料的液相烧结

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Intermetallic matrix composites, WC-FeAl and WC Ni_3Al, based on 40 vol% intermetallic binder, were prepared from ultrafine precursor powders and processed by liquid phase sintering. Intermetallic binders, Fe_(60)Al_(40)-500ppm B, Ni_3Al-500ppm B and Ni_3Al were prepared in ultrafine form by controlled atmosphere ring grinding, blended with submicron WC powder and then uniaxially hot pressed under constant load at 1450, 1500 and 1550 ℃. The composites exhibited near full density at the highest sintering temperature. It was found that composites containing Ni_3Al-based binder had the same or lower than those composites which contained FeAl-based binder but Ni_3Al based composites exhibited higher toughness. It seems that the higher hardnesses in FeAl-based composites could be associated with the higher hardness of the binder phase. The addition of 500 ppm B to Ni_3Al was found to significantly inhibit WC grain growth after uniaxial hot pressing but the precise mechanism of this effect is yet to be investigated.

机译：由超细前体粉末制备了基于40％（体积）金属间结合剂的金属间基质复合物WC-FeAl和WC Ni_3Al，并进行了液相烧结处理。通过控制气氛环研磨，以超细形式制备金属间化合物Fe_（60）Al_（40）-500ppm B，Ni_3Al-500ppm B和Ni_3Al，与亚微米级WC粉末混合，然后在恒定载荷下于1450、1500和1000℃单轴热压。 1550℃。在最高的烧结温度下，复合材料表现出接近全密度。发现包含Ni_3Al基粘合剂的复合物与包含FeAl基粘合剂的复合物相同或更低，但是Ni_3Al基复合物表现出更高的韧性。看来，FeAl基复合材料的较高硬度可能与粘结剂相的较高硬度有关。已发现在Ni_3Al中添加500 ppm B会显着抑制单轴热压后WC晶粒的生长，但这种作用的确切机理尚待研究。

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《International Conference on Processing amp; Manufacturing of Advanced Materials Pt.3; Jul 7-11, 2003; Leganes, Madrid, Spain》|2003年|p.1951-1956|共6页
会议地点 Madrid(ES);Madrid(ES)
作者
M. Ahmadian; D. Wexler; A. Calka; T. Chandra;
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作者单位

School of Materials and Mechanical Engineering, Wollongong University, Northfields Ave., Wollongong, NSW 2522, Australia;

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会议组织
原文格式 PDF
正文语种 eng
中图分类一般工业技术;
关键词
intermetallic matrix composites; WC composites; nickel aluminide; iron aluminide; alternative binder; tungsten carbide; hardmetals; cermets;

机译：金属间化合物基复合材料; WC复合材料;铝化镍;铝化铁;替代粘合剂;碳化钨;硬质合金;金属陶瓷;
入库时间 2022-08-26 14:21:37

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Liquid Phase Sintering of WC-FeAl and WC-Ni_3Al Composites with and without Boron

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