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
2014年
4期
628-634
,共7页
赵晶晶%李继文%张盘龙%魏世忠%张国赏%徐流杰
趙晶晶%李繼文%張盤龍%魏世忠%張國賞%徐流傑
조정정%리계문%장반룡%위세충%장국상%서류걸
水热合成%共还原%水热产物%氧化钨铜复合粉体%钨铜合金粉体
水熱閤成%共還原%水熱產物%氧化鎢銅複閤粉體%鎢銅閤金粉體
수열합성%공환원%수열산물%양화오동복합분체%오동합금분체
hydrothermal synthesis%co-reduction%hydrolyzates%W-Cu oxide composite powders%W-Cu composite powders
以钨酸钠和硝酸铜为原料,通过水热合成反应及550℃/1.5 h焙烧得到氧化钨铜复合粉体,氢气还原后获得W-20%Cu复合粉体,采用X射线衍射(XRD)、扫描电镜(SEM)和高分辨透射电镜(HTEM),对该复合粉体的组织与结构进行表征。结果表明:采用水热合成法制备氧化钨铜的前驱体时混合溶液应调整为碱性,最好将 pH值控制在9,水热反应产物主要是由CuWO4·2H2O与Cu2WO4(OH)2组成的复合络合物;550℃温度下焙烧时水热合成产物完全分解为由WO3、CuO和CuWO4-x组成的复合氧化物,粒度在2~5μm之间,分布均匀;复合氧化物在700~900℃下氢气还原成为典型的铜包钨结构的钨铜复合粉体,呈规则球形,晶粒度在70 nm左右,钨铜分布均匀,两相一体,保留了溶液中分子级的混合状态。
以鎢痠鈉和硝痠銅為原料,通過水熱閤成反應及550℃/1.5 h焙燒得到氧化鎢銅複閤粉體,氫氣還原後穫得W-20%Cu複閤粉體,採用X射線衍射(XRD)、掃描電鏡(SEM)和高分辨透射電鏡(HTEM),對該複閤粉體的組織與結構進行錶徵。結果錶明:採用水熱閤成法製備氧化鎢銅的前驅體時混閤溶液應調整為堿性,最好將 pH值控製在9,水熱反應產物主要是由CuWO4·2H2O與Cu2WO4(OH)2組成的複閤絡閤物;550℃溫度下焙燒時水熱閤成產物完全分解為由WO3、CuO和CuWO4-x組成的複閤氧化物,粒度在2~5μm之間,分佈均勻;複閤氧化物在700~900℃下氫氣還原成為典型的銅包鎢結構的鎢銅複閤粉體,呈規則毬形,晶粒度在70 nm左右,鎢銅分佈均勻,兩相一體,保留瞭溶液中分子級的混閤狀態。
이오산납화초산동위원료,통과수열합성반응급550℃/1.5 h배소득도양화오동복합분체,경기환원후획득W-20%Cu복합분체,채용X사선연사(XRD)、소묘전경(SEM)화고분변투사전경(HTEM),대해복합분체적조직여결구진행표정。결과표명:채용수열합성법제비양화오동적전구체시혼합용액응조정위감성,최호장 pH치공제재9,수열반응산물주요시유CuWO4·2H2O여Cu2WO4(OH)2조성적복합락합물;550℃온도하배소시수열합성산물완전분해위유WO3、CuO화CuWO4-x조성적복합양화물,립도재2~5μm지간,분포균균;복합양화물재700~900℃하경기환원성위전형적동포오결구적오동복합분체,정규칙구형,정립도재70 nm좌우,오동분포균균,량상일체,보류료용액중분자급적혼합상태。
The W-Cu oxide precursor composite powders were fabricated by hydrothermal synthesis method and 550 ℃/1.5 h calcination using sodium tungstate and copper nitrate as raw materials, and the W-20%Cu composite powders were obtained through hydrogen reduction. The microstructures of the prepared powders were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and high-resolution transmission electron microscopy (HTEM). The results show that the mixed solution should be adjusted for alkaline;pH value should be controlled at 9 when the W-Cu oxide precursor is prepared by hydrothermal synthesis method. The hydrolyzates are mainly consist of CuWO4·2H2O and Cu2WO4(OH)2, and can be completely decomposed into the oxide composite powders composed of WO3, CuO and CuWO4-x when calcinating at 550℃. The oxide composite powders particles distribute uniformly, and the particle size is about 2~5μm. Moreover, W-Cu composite powders can be reduced at 700~900℃. The morphology of the W-Cu powders shows the typical structure of tungsten covered by copper, the partcle size of the composite powders is around 70 nm. W-Cu composite powder particle presents sphericity, W and Cu elements distribute uniformly, express two phases integration and retain the molecular level of mixed state in the solution.
