Al2O3k/Al材料的反重力渗流铸造制备
来源期刊:中南大学学报(自然科学版)2013年第4期
论文作者:王辉 周向阳 李劼 刘宏专 杨焘
文章页码:1319 - 1324
关键词:反重力渗流铸造;空心球;空隙度;充型压力
Key words:counter-gravity infiltration casting; hollow ball; void content; filling pressure
摘 要:采用氧化铝空心球作为造孔材料,通过反重力渗流铸造技术制备出基本无宏观铸造缺陷的氧化铝/铝基轻质复合材料(即Al2O3k/Al材料)。研究结果表明:渗流长度随熔体温度和空心球预热温度的提高以及空心球粒径的增大而增加,空隙度随着空心球粒径的增大而降低;增加充型与保压压力、延长保压时间以及添加金属Mg等均是改善渗流效果的有效手段。
Abstract: Al2O3k/Al materials without obvious macro casting defects were produced using alumina bubble brick as pore-forming materials through the counter-gravity infiltration casting system. The results show that along with the increase of the metal temperature and hollow balls preheating temperature and the particle size of hollow balls, the length of infiltration is getting longer. Besides, along with the increase of the particle size of the hollow ball, the void content decreases. Improving the filling and holding pressure, lengthening the holding time and adding metal Mg are the effective measures to improve infiltration process.
王辉,周向阳,李劼,刘宏专,杨焘
(中南大学 冶金科学与工程学院,湖南 长沙,410083)
摘 要:采用氧化铝空心球作为造孔材料,通过反重力渗流铸造技术制备出基本无宏观铸造缺陷的氧化铝/铝基轻质复合材料(即Al2O3k/Al材料)。研究结果表明:渗流长度随熔体温度和空心球预热温度的提高以及空心球粒径的增大而增加,空隙度随着空心球粒径的增大而降低;增加充型与保压压力、延长保压时间以及添加金属Mg等均是改善渗流效果的有效手段。
关键词:反重力渗流铸造;空心球;空隙度;充型压力
WANG Hui, ZHOU Xiangyang, LI Jie, LIU Hongzhuan, YANG Tao
(School of Metallurgical Science and Engineering, Central South University, Changsha 410083, China)
Abstract:Al2O3k/Al materials without obvious macro casting defects were produced using alumina bubble brick as pore-forming materials through the counter-gravity infiltration casting system. The results show that along with the increase of the metal temperature and hollow balls preheating temperature and the particle size of hollow balls, the length of infiltration is getting longer. Besides, along with the increase of the particle size of the hollow ball, the void content decreases. Improving the filling and holding pressure, lengthening the holding time and adding metal Mg are the effective measures to improve infiltration process.
Key words:counter-gravity infiltration casting; hollow ball; void content; filling pressure
