机械合金化制备TiC／W纳米晶复合粉体的烧结特性

HFCAS OpenIR

	机械合金化制备TiC／W纳米晶复合粉体的烧结特性
其他题名	Sintering Property of TiC / W Nanocomposite Powders Prepared by Mechanical Alloying
	2007-01-01
发表期刊	机械工程材料
ISSN	1000-3738
摘要	利用高能机械球磨制备出W-10％TiC复合粉体并进行烧结，分析了粉体特性和烧结体的组织形貌。结果表明：球磨使引入的镍铁和钨形成固溶体，并且产生大量缺陷，从而促进烧结致密化。随着球磨时问的延长，粉体晶粒尺寸下降，点阵畸变逐渐增大，经过球磨后粉体具有较高的烧结活性，并且随着球磨时间的延长，复合粉体烧结后密度逐渐增加。烧结体显微组织均匀致密，没有问隙和空洞出现，其中钨颗粒近似呈球状，粒径为20～30μm，碳化钛颗粒基本保持原始颗粒大小（1～2μm）弥散分布在相邻的钨颗粒边界处；钨镍铁相呈网状组织包围着部分钨和碳化钛颗粒，其体积随着球磨时问延长而增加。
其他摘要	W-10%TiC composite powders were prepared by ball milling. Powder properties and structures of sintered samples were analyzed. The results show that Ni and Fe are induced into powders and large number of defects are formed. The powders have a higher sintering activity after ball milling. All these improve sintering densification of powders. Ni and Fe form （Ni, Fe, W） solid solution during mechanical milling. The grain size of powders decrease gradually, and the lattice distortion increase with increasing milling time. In the microstructure tungsten grains presente a sphere-like shape and have a size of 20-30μm and TiC particles keep their original size of 1-2μm and distributed at the tungsten grain boundaries, and there is no obvious hole or interstice in the sintering structure. （Ni, Fe, W） phase surrounded tungsten grains as a reticulation and its volume increase with increasing ball milling time.
关键词	钨碳化钛高能球磨纳米晶复合粉体烧结特性
收录类别	CSCD
语种	中文
CSCD记录号	CSCD:2955126
引用统计	被引频次：2[CSCD] [CSCD记录]
文献类型	期刊论文
条目标识符	http://ir.hfcas.ac.cn:8080/handle/334002/56179
专题	中国科学院合肥物质科学研究院
推荐引用方式 GB/T 7714	. 机械合金化制备TiC／W纳米晶复合粉体的烧结特性[J]. 机械工程材料,2007,031.
APA	(2007).机械合金化制备TiC／W纳米晶复合粉体的烧结特性.机械工程材料,031.
MLA	"机械合金化制备TiC／W纳米晶复合粉体的烧结特性".机械工程材料 031(2007).