粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2015年
2期
266-272
,共7页
李晨坤%肖平安%张小虎%张霞%陈超
李晨坤%肖平安%張小虎%張霞%陳超
리신곤%초평안%장소호%장하%진초
搅拌球磨%TiH2%粒度特性%晶粒度%烧结
攪拌毬磨%TiH2%粒度特性%晶粒度%燒結
교반구마%TiH2%립도특성%정립도%소결
stirring mill%TiH2%particle size characteristics%grain size%sintering
对TiH2/SiC混合粉末进行搅拌球磨,然后通过压制与真空烧结制备金属钛,研究球料比、球磨转速及球磨时间等工艺参数对球磨粉末粒度与显微组织的影响,并通过对烧结钛的组织观察与分析,研究此工艺制备超细晶钛的可行性。结果表明:适度提高转速或延长球磨时间有利于TiH2粉末的高效细化并提高粉末粒度分布的集中度;在球磨过程中没有发现TiH2分解和形成其他新相的现象;随球磨粉末的中位径D50和粒度跨度值ψ减小,烧结金属钛的晶粒度变得更小、更均匀。在600 r/min转速下搅拌球磨8 h后的TiH2/SiC粉末,在1050℃/3 h条件下高真空烧结后得到平均晶粒度在5μm以下的超细晶钛。
對TiH2/SiC混閤粉末進行攪拌毬磨,然後通過壓製與真空燒結製備金屬鈦,研究毬料比、毬磨轉速及毬磨時間等工藝參數對毬磨粉末粒度與顯微組織的影響,併通過對燒結鈦的組織觀察與分析,研究此工藝製備超細晶鈦的可行性。結果錶明:適度提高轉速或延長毬磨時間有利于TiH2粉末的高效細化併提高粉末粒度分佈的集中度;在毬磨過程中沒有髮現TiH2分解和形成其他新相的現象;隨毬磨粉末的中位徑D50和粒度跨度值ψ減小,燒結金屬鈦的晶粒度變得更小、更均勻。在600 r/min轉速下攪拌毬磨8 h後的TiH2/SiC粉末,在1050℃/3 h條件下高真空燒結後得到平均晶粒度在5μm以下的超細晶鈦。
대TiH2/SiC혼합분말진행교반구마,연후통과압제여진공소결제비금속태,연구구료비、구마전속급구마시간등공예삼수대구마분말립도여현미조직적영향,병통과대소결태적조직관찰여분석,연구차공예제비초세정태적가행성。결과표명:괄도제고전속혹연장구마시간유리우TiH2분말적고효세화병제고분말립도분포적집중도;재구마과정중몰유발현TiH2분해화형성기타신상적현상;수구마분말적중위경D50화립도과도치ψ감소,소결금속태적정립도변득경소、경균균。재600 r/min전속하교반구마8 h후적TiH2/SiC분말,재1050℃/3 h조건하고진공소결후득도평균정립도재5μm이하적초세정태。
TiH2/SiC powders were stirring milled, and then pressed and sintered in vacuum to produce bulk titanium material. Furthermore, the effects of the ball material ratio, rotating speed of ball mill, ball grinding time and other process parameters on particle size and microstructure of the milled powders were investigated. Through observation and analysis of the microstructure of sintered titanium, the feasibility of the technology for the preparation of bulk titanium alloy with ultrafine grains was studied. The study results indicate that: reasonably increasing milling rate and prolonging milling time are in favor of effective fining of the raw powders and fabrication of milled powders with high concentration of particle size distribution; The decomposition of TiH2 and other new phase formation are not found in the process of ball mill; With decreasing median diameterD50 and granular span of ball mill powders, the grain size of sintered metal titanium become smaller and more uniform. The sintered titanium with average size less than 5μm can be obtained by stirring mill TiH2/SiC powders at the rotate speed of 600 r/min for 8h and then sintered in high vacuum surrounding at the temperature of 1 050℃ for 3 h.