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Advanced Processing of Metals and Materials Volume 1: Thermo and Physicochemical Principles: Non-ferrous High-temperature Processing，2006: 387 ［16］ Liu X W，Yang J G，Wu Y T，et al． Separation of needle anti￾mony from stibnite through low-temperature sulfur-fixing smelting process． Chin J Nonferrous Met，2012，22( 10) : 2896 ( 刘小文，杨建广，伍永田，等． 由辉锑矿低温固硫熔炼制取 粗锑． 中国有色金属学报，2012，22( 10) : 2896) ［17］ Ye L G，Tang C B，Tang M T，et al． Separation antimony from stibnite concentrate through a low temperature smelting． J Cent South Univ Sci Technol，2012，43( 9) : 3338 ( 叶龙刚，唐朝波，唐谟堂，等． 硫化锑精矿低温熔炼新工 艺． 中南大学学报: 自然科学版，2012，43( 9) : 3338) ［18］ Tang M T，Tang C B，Chen Y M，et al． A Process for Clean Met￾allurgy of Lead in a Molten Salt at Low-temperature: China Pa￾tent，101864522A． 2010--10--20 ( 唐谟堂，唐朝波，陈永明，等． 一种铅的低温熔盐清洁冶金 方法: 中国专利，101864522A． 2010--10--20) ［19］ Huang C，Tang C B，Tang M T，et al． Sulfur-fixing reduction smelting of spent lead-acid battery colloid sludge in fused salt at low temperature． Min Metall Eng，2012，32( 2) : 84 ( 黄潮，唐朝波，唐谟堂，等． 废铅酸蓄电池胶泥的低温熔盐 还原固硫熔炼工艺研究． 矿冶工程，2012，32( 2) : 84) ［20］ Tang C B，Hu Y J，Tang M T，et al． Ｒeductive fixed sulfur smelting of spent lead-acid battery colloid sludge in a fused salt at low Temperature / / The 11th International Symposium on East Asian Ｒesources Ｒecycling Technology． Taiwan，2011: 684 ［21］ Yang J G，He D W，Tang C B，et al． Thermodynamics calcula￾tion and experimental study on separation of bismuth from a bis￾muth glance concentrate through a low-temperature molten salt smelting process． Metall Mater Trans B，2011，42( 4) : 730 ［22］ Yang J G，Tang C B，Chen Y M，et al． Separation of antimony from a stibnite concentrate through a low-temperature smelting process to eliminate SO2 emission． Metall Mater Trans B，2011， 42( 1) : 30 ［23］ Fu C S． Nonferrous Metallurgy Principle． Beijing: Metallurgical Industry Press，1993 ( 傅从说． 有色冶金原理． 北京: 冶金工业出版社，1993) ［24］ Ye D L． Metallurgy Thermodynamics． Changsha: Central South Industrial University Press，1987 ( 叶大伦． 冶金热力学． 长沙: 中南工业大学出版社，1987) · 495 ·