Study on Improvement of Filling Structure and Functionality of Silver Clay Sintering Body

Tomoyuki Tawara, H. Ohya, Akiyoshi Yatsugi, Kinya Hirabayashi, K. Oda
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Abstract

“Art Clay Silver (Silver Clay)”, developed as a silver recycled product, is a mixture of fine powdered silver and binder for easily making silver accessories after sintering at 650°C. In this study, in order to find the optimum binder amount to maximize the strength of the sintered product, the filling structure of sintered Silver Clay was analyzed at various binder amounts under three particle size fractions (fine, coarse, and their equal weight mixture) on the basis of the measurements of porosity, shrinkage rate, strength, and pore size distribution together with SEM observation. As a result, we found that the filling structure was controlled by changing the particle size and the binder amount, and that the binder addition of 5–8% to fine particle fraction yielded the minimum porosity and maximum strength.
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改进银粘土烧结体充填结构及功能的研究
“Art Clay Silver(银泥)”是作为白银回收产品而开发的,它是由细粉银与粘合剂混合而成,经650℃烧结后易于制作银配件。在本研究中,为了找到能使烧结产物强度最大化的最佳粘结剂用量,在孔隙率、收缩率、强度和孔径分布的测量以及SEM观察的基础上,对烧结银粘土在不同粘结剂用量下(细粒、粗粒和等重混合)的充填结构进行了分析。结果表明,充填结构受粒径和粘结剂用量的控制,当粘结剂添加量为细粒分数的5 ~ 8%时,孔隙率最小,强度最大。
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