首页 | 期刊介绍 | 编 委 会 | 投稿指南 | 出版法规 | 出版伦理 | 期刊订阅 | 联系我们 | 留言板 | 广告合作 | ENGLISH LI Zhiqiang, LEI Ping, YOU Junheng, LI Tinghua, HAN Jingmei, LÜ Xi, WANG Hao, SHANG Shanzhai, ZHU Donglai Technology Center of China Tobacco Yunnan Industrial Co., Ltd., Kunming 650231, China Abstract ：The glass-ceramics insulating layer was prepared on the surface of GH783 alloy by print-sintering process, and then the platinum paste layer was sintered on the surface of the insulating layer to obtain the thick film heating circuit. The surface and section morphology of the resistance layer after the sintering of platinum paste were observed by SEM. The resistance of thick film heating circuit was measured by DC resistance meter. The resistance temperature coefficient of the heating circuit was measured by the resistance value and temperature characteristic test system of ceramic heating plate. The effects of sintering temperature and holding time on the microstructure and resistance value of resistance layer were studied. The optimal sintering process parameters of platinum paste were determined as follows: sintering temperature of 850 ℃, holding time of 5 min. The accuracy of resistance temperature coefficient of GH783 thick film heating element is 0.24%, and it is 4.86 s when it is heated from room temperature to 350 ℃. It shows excellent heating performance, which provides design ideas and experimental cases for the preparation of metal-based heating element. Key words ： thick film heating element nickel base superalloy platinum paste sintering process heating-up performance 李志强, 雷萍, 尤俊衡, 李廷华, 韩敬美, 吕茜, 王浩, 尚善斋, 朱东来. 镍基合金基板厚膜发热元件的铂浆烧结工艺[J]. 粉末冶金材料科学与工程, 2021, 26(6): 507-514.
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