中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2014年
2期
553-560
,共8页
翁启刚%李瑞迪%袁铁锤%李健%贺跃辉
翁啟剛%李瑞迪%袁鐵錘%李健%賀躍輝
옹계강%리서적%원철추%리건%하약휘
熔盐电解%高纯钛%粉末%价态%电结晶
鎔鹽電解%高純鈦%粉末%價態%電結晶
용염전해%고순태%분말%개태%전결정
molten salt electrolysis%high-purity titanium%powder%valence%electrocrystallization
以 NaCl-KCl-TiClx为电解质,以海绵钛为原料进行熔盐电解提纯制取高纯钛粉。研究电解过程中离子价态、纯度及电结晶的演变规律。XPS 分析表明,在电解前期、中期及后期,钛离子主要分别以+4、+3、+2价存在。在电解过程中,Si、Cr、Mn、Al 杂质的含量基本恒定,而 Fe、Cu、Ni 杂质的含量逐渐降低,O、N、H元素的含量明显增加。在电解钛粉体内部,杂质元素主要分布在枝晶间所形成的“坑道”内。电解钛粉体形貌及粉体粒度受电解温度和时间的影响较大,温度升高及时间延长可增加钛粉体的粒度。透射电镜分析表明,电结晶的钛粉体不是单晶,而是由大量的纳米晶粒及亚晶粒组成的,晶粒尺度为100~500 nm。对电解机理进行了讨论。
以 NaCl-KCl-TiClx為電解質,以海綿鈦為原料進行鎔鹽電解提純製取高純鈦粉。研究電解過程中離子價態、純度及電結晶的縯變規律。XPS 分析錶明,在電解前期、中期及後期,鈦離子主要分彆以+4、+3、+2價存在。在電解過程中,Si、Cr、Mn、Al 雜質的含量基本恆定,而 Fe、Cu、Ni 雜質的含量逐漸降低,O、N、H元素的含量明顯增加。在電解鈦粉體內部,雜質元素主要分佈在枝晶間所形成的“坑道”內。電解鈦粉體形貌及粉體粒度受電解溫度和時間的影響較大,溫度升高及時間延長可增加鈦粉體的粒度。透射電鏡分析錶明,電結晶的鈦粉體不是單晶,而是由大量的納米晶粒及亞晶粒組成的,晶粒呎度為100~500 nm。對電解機理進行瞭討論。
이 NaCl-KCl-TiClx위전해질,이해면태위원료진행용염전해제순제취고순태분。연구전해과정중리자개태、순도급전결정적연변규률。XPS 분석표명,재전해전기、중기급후기,태리자주요분별이+4、+3、+2개존재。재전해과정중,Si、Cr、Mn、Al 잡질적함량기본항정,이 Fe、Cu、Ni 잡질적함량축점강저,O、N、H원소적함량명현증가。재전해태분체내부,잡질원소주요분포재지정간소형성적“갱도”내。전해태분체형모급분체립도수전해온도화시간적영향교대,온도승고급시간연장가증가태분체적립도。투사전경분석표명,전결정적태분체불시단정,이시유대량적납미정립급아정립조성적,정립척도위100~500 nm。대전해궤리진행료토론。
High-purity titanium powder was prepared by molten salt electrorefining from sponge titanium in NaCl-KCl-TiClx salts. The titanium valence, purity and electrocrystallization during electrolysis process were studied. The XPS analysis showed that the titanium valences are mainly +4, +3 and +2 at the earlier, medium and later stages of electrolysis, respectively. During the electrolysis process, the contents of impurities Si, Cr, Mn, Al vary little, and the contents of impurities Fe, Cu, Ni decrease markedly, while the contents of impurities O, N, H increase obviously. The residual impurities are usually distributed in small tunnel of dendritic crystals. Enhancing the electrolysis temperature and prolonging the electrolysis time can increase the titanium particle size. The TEM analysis showed that the electrodeposited titanium is not a single crystal, but contains many nanostructured grains and subgrains, with grain size of 100-500 nm. The electrolysis mechanisms were also discussed.
