中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
9期
2333-2338
,共6页
钟景明%岳坤%孙本双%王东新
鐘景明%嶽坤%孫本雙%王東新
종경명%악곤%손본쌍%왕동신
ITO靶材%粉浆浇注%浆料性能%微观组织
ITO靶材%粉漿澆註%漿料性能%微觀組織
ITO파재%분장요주%장료성능%미관조직
ITO target material%slip casting%slurry property%microstructure
研究分散剂、pH值和固相含量对铟锡氧化物(ITO)浆料稳定性、流变性的影响,以及粉浆浇注压力对坯体密度的影响。结果表明:当聚丙烯酸(PAA)质量分数为0.5%、聚乙二醇(PEG)质量分数为1.5%、pH值为9、ITO固相含量为70%(质量分数)时,调制的浆料的流变性和稳定性最佳,并在注浆压力为1.5 MPa的条件下制备出相对密度为68%的高密度粉浆浇注坯体;对该素坯进行常压烧结制备了相对密度高于99.5%的ITO靶材。对靶材的组织与成分分析发现,粉浆浇注ITO靶材的结构为氧化锡完全固溶于氧化铟的单一立方In2O3结构,同时In、Sn和O元素分布均匀,无元素富集现象,晶粒尺寸均匀,完全满足八代以上镀膜线的应用技术要求。
研究分散劑、pH值和固相含量對銦錫氧化物(ITO)漿料穩定性、流變性的影響,以及粉漿澆註壓力對坯體密度的影響。結果錶明:噹聚丙烯痠(PAA)質量分數為0.5%、聚乙二醇(PEG)質量分數為1.5%、pH值為9、ITO固相含量為70%(質量分數)時,調製的漿料的流變性和穩定性最佳,併在註漿壓力為1.5 MPa的條件下製備齣相對密度為68%的高密度粉漿澆註坯體;對該素坯進行常壓燒結製備瞭相對密度高于99.5%的ITO靶材。對靶材的組織與成分分析髮現,粉漿澆註ITO靶材的結構為氧化錫完全固溶于氧化銦的單一立方In2O3結構,同時In、Sn和O元素分佈均勻,無元素富集現象,晶粒呎吋均勻,完全滿足八代以上鍍膜線的應用技術要求。
연구분산제、pH치화고상함량대인석양화물(ITO)장료은정성、류변성적영향,이급분장요주압력대배체밀도적영향。결과표명:당취병희산(PAA)질량분수위0.5%、취을이순(PEG)질량분수위1.5%、pH치위9、ITO고상함량위70%(질량분수)시,조제적장료적류변성화은정성최가,병재주장압력위1.5 MPa적조건하제비출상대밀도위68%적고밀도분장요주배체;대해소배진행상압소결제비료상대밀도고우99.5%적ITO파재。대파재적조직여성분분석발현,분장요주ITO파재적결구위양화석완전고용우양화인적단일립방In2O3결구,동시In、Sn화O원소분포균균,무원소부집현상,정립척촌균균,완전만족팔대이상도막선적응용기술요구。
The effects of additives, pH value and solid content on the stability and rheology of indium tin oxide (ITO) slurry were studied, and the effect of slip casting pressure on the bulk density was investigated. The results show that the slurry with 70% ITO solid content (mass fraction) is very stable and easy to form the ITO green-body with a relative density of 68% under casting pressure of 1.5 MPa when the parameters of forming slurry are fixed at w(PAA)=0.5%(PAA is polyacrylic acid), w(PEG)=1.5%(PEG is polyethylene glycol) and pH=9. The ITO target materials with relative density higher than 99.5%are achieved using the green-body mentioned above by pressureless sintering. The structure of ITO target material is the cubic structure of indium oxide, and the grain size and the elements of In, Sn and O well distribute. The ITO target materials reach the quality for the application in G8 TFT-LCD production line.
