Forming Mechanism and Morphology of CaSO4?H2O by SEM-EDS and ICP
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2016年第2期
论文作者:董磊 LUO Wei WANG Junyuan WANG Huajun LI Xing 王洪福
文章页码:274 - 277
摘 要:To promote the development of 3D printing materials,gypsum powders used in 3D printing were analyzed in detailthrough SEM-EDS and ICP.The forming mechanism and morphology of CaSO4·χH2O powders were analyzed and confirmed.Furthermore,the printing mechanism of gypsum powders was analyzed and discussed.According to the results of SME-EDS analysis and ICP detection,the factors affecting the forming accuracy,strength,surface quality and reliability of CaSO4·χH2O crystalwere found in this paper.Adding a variety of additives to change the performance of calcium sulfate would be the further research.
董磊1,LUO Wei1,WANG Junyuan1,WANG Huajun2,LI Xing1,王洪福1
1. School of Mechanical and Power Engineer,North University of China2. School of Materials Science and Engineering,Wuhan University of Technology
摘 要:To promote the development of 3D printing materials,gypsum powders used in 3D printing were analyzed in detailthrough SEM-EDS and ICP.The forming mechanism and morphology of CaSO4·χH2O powders were analyzed and confirmed.Furthermore,the printing mechanism of gypsum powders was analyzed and discussed.According to the results of SME-EDS analysis and ICP detection,the factors affecting the forming accuracy,strength,surface quality and reliability of CaSO4·χH2O crystalwere found in this paper.Adding a variety of additives to change the performance of calcium sulfate would be the further research.
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