Raw scrap powders containing 10 wt.% In were recovered by sand-blasting chamber shields of sputter coaters and used as a sole source of indium components for both sieving and air-classification. Sieving was performed ...Raw scrap powders containing 10 wt.% In were recovered by sand-blasting chamber shields of sputter coaters and used as a sole source of indium components for both sieving and air-classification. Sieving was performed first as a feasibility test, and enrichment of indium component was possible up to 19 wt.% with a mesh size of 635. With this experimental basis, the raw scrap powders were air-classified into 12 lots according to the revolution per minute (r/min) of a single horizontally arranged classifying wheel: 4000, 6000, 8000, 10000, 12000, and 14000 r/rain. The particle cut size varied from 56 to 5 μm with turbo wheel speeds corresponding to 4000 to 14000 r/min, respectively, and enrichment of indium component was possible in fine overflow fractions at all turbo wheel speeds while the indium components were not concentrated in all of the coarse underflow fractions. The grade of the indium components became higher with decreasing particle size of the air-classified scrap powders, with the highest grade obtained in the fine overflow fraction with a turbo wheel speed of 14000 r/min. The amount of indium in the fine overflow fractions varied between 15.9 wt.% and 31.5 wt.%. All in all, the grade or purity of the indium component improved rather significantly from 15.9 wt.% to 31.5 wt.% by air-classification, but this also resulted in overall decrease in recovery rate from 99.33% to 49.64%. Therefore, enrichment and separation of indium should be optimized for maximum recovery and grade of the indium components, which can be used as raw materials in the subsequent electro-refining processes.展开更多
Summary Tobacco smoking is the number one preventable cause of disease and death in China as it is globally.Indeed,the toll of smoking in China is much greater than its status as the world’s most populous country.The...Summary Tobacco smoking is the number one preventable cause of disease and death in China as it is globally.Indeed,the toll of smoking in China is much greater than its status as the world’s most populous country.There is a persistent and continuing need for China to implement the measures specified in the global tobacco control treaty,the World Health Organization(WHO)Framework Convention on Tobacco Control(FCTC),which China ratified in 2005.展开更多
文摘Raw scrap powders containing 10 wt.% In were recovered by sand-blasting chamber shields of sputter coaters and used as a sole source of indium components for both sieving and air-classification. Sieving was performed first as a feasibility test, and enrichment of indium component was possible up to 19 wt.% with a mesh size of 635. With this experimental basis, the raw scrap powders were air-classified into 12 lots according to the revolution per minute (r/min) of a single horizontally arranged classifying wheel: 4000, 6000, 8000, 10000, 12000, and 14000 r/rain. The particle cut size varied from 56 to 5 μm with turbo wheel speeds corresponding to 4000 to 14000 r/min, respectively, and enrichment of indium component was possible in fine overflow fractions at all turbo wheel speeds while the indium components were not concentrated in all of the coarse underflow fractions. The grade of the indium components became higher with decreasing particle size of the air-classified scrap powders, with the highest grade obtained in the fine overflow fraction with a turbo wheel speed of 14000 r/min. The amount of indium in the fine overflow fractions varied between 15.9 wt.% and 31.5 wt.%. All in all, the grade or purity of the indium component improved rather significantly from 15.9 wt.% to 31.5 wt.% by air-classification, but this also resulted in overall decrease in recovery rate from 99.33% to 49.64%. Therefore, enrichment and separation of indium should be optimized for maximum recovery and grade of the indium components, which can be used as raw materials in the subsequent electro-refining processes.
基金The ITC 2013–2015 China Wave 5 Survey was supported by grants from the Canadian Institutes of Health Research(MOP-115016),and the Chinese Center for Disease Control and Prevention.The 2020 ITC Republic of Korea Wave 1 Survey was supported by a grant from the Republic of Korea National Health Promotion Fund and the Canadian Institutes of Health Research Foundation Grant(FDN-148477).The 2020 ITC Japan Wave 3 Survey was supported by the Canadian Institutes of Health Research Foundation Grant(FDN-148477).Additional support to GTF,LVC,SSX,GM,and ACKQ was provided by the Canadian Institutes of Health Research Foundation Grant(FDN-148477).GTF is also supported by a Senior Investigator Grant from the Ontario Institute for Cancer Research and the Canadian Cancer Society 2020 O.Harold Warwick Prize.
文摘Summary Tobacco smoking is the number one preventable cause of disease and death in China as it is globally.Indeed,the toll of smoking in China is much greater than its status as the world’s most populous country.There is a persistent and continuing need for China to implement the measures specified in the global tobacco control treaty,the World Health Organization(WHO)Framework Convention on Tobacco Control(FCTC),which China ratified in 2005.