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作 者:朱二涛[1] 羊建高[1,2,3] 戴煜 张翔[4] 邓军旺 郭圣达[1,3] 吴杰[1]
机构地区:[1]江西理工大学材料科学与工程学院,赣州341000 [2]湖南顶立科技有限公司,长沙410118 [3]江西理工大学工程研究院,赣州341000 [4]中南大学粉末冶金国家重点实验室,长沙410083
出 处:《粉末冶金材料科学与工程》2015年第2期175-181,共7页Materials Science and Engineering of Powder Metallurgy
基 金:国家国际科技合作专项(2011DFR50970);国家863计划项目(2012AA061902);国家自然科学基金(51174101);湖南省科技重大专项(2012FJ1009);江西省钨与稀土重大科技专项(2010AZD00100);江西省高等学校科技落地计划项目(KJLD12072);江西理工大学校级重点资助项目(NSFJ2015-K18)
摘 要:以偏钨酸铵(AMT)、醋酸钻Co(CH3COO)2·4H2O、有机碳为原料,通过喷雾干燥得到前驱体粉末,然后在氮气氛下煅烧制备钨钴氧化物复合粉末;并对AMT、醋酸钻及前驱体粉末进行TG-DSC-DTA分析,用XPS对钨钴氧化物粉末进行价态分析,以x射线衍射对钨钴氧化物粉末进行物相分析,用SEM对粉末进行形貌分析。结果表明:煅烧温度550℃、氮气流量6.5m^3/h、煅烧时间20min制备的钨钴氧化物粉末粒度为10~125μm,平均粒度为50μm,产物为裂解碳、WO3、CO3O4。此温度可避免AMT分解生成的WO3在水蒸气作用下生成钨水化物W02(OH)2;避免WO2(OH)2在H2作用下还原成w粉;及避免w粉沉积在早先被还原的w核上使w粉颗粒长大。Using ammonium metatungstate (AMT), cobalt acetate (Co(CH3COO)2.4H20) and organic carbon source as raw materials, precursor powder was prepared through spray drying, then was calcined in N2 to prepare W-Co oxide composite powder. TG-DSC-DTA analysis was applied on AMT, cobalt acetate and precursor powder, XPS was used to analyse valence state of W-Co oxide composite powder; XRD was used to analuse phase composition of W-Co oxide composite powder, SEM was used to analyse morphology of the powder. The results show that, the particle size of W-Co oxide powder prepared at 550 ℃ with 6.5m3/h N2 for 20 min is 10-125μm, and average particle size is 50 μm. The products by calcining W-Co oxide are cracking carbon, WO3 and Co3O4. It is at 550 ℃ that WO3 generated by AMT decomposition can be avoided to produce WO2(OH)2 under the effect of water vapor, WO2(OH) 2 can be avoided from reducing to W powder in H2, W powder can be avoided from depositing on W core, which makes W powder particles growing.
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