摘要
材料基因工程作为材料领域的变革性前沿技术,极大地缩短了材料从设计到应用的进程、提高研发效率、降低研发成本,成为一种全新的材料研发模式。主要介绍了运用材料基因工程技术对超高温热障涂层体系进行的前期研究,包括超高温稀土钽酸盐陶瓷隔热层和Pt-Ir基高温合金黏结层的研发,同时对材料基因工程技术在超高温热障涂层研发中的应用进行了展望。
Material genome engineering is a revolutionary cutting-edge technology in the field of materials,which greatly shortens the process of materials from design to application,improves research efficiency and reduces cost,and becomes a new mode of material research and development.This paper mainly introduces the materials genome engineering technology in the development of ultra-high temperature thermal barrier coating system,including ceramic insulation of ultra-high temperature rare earth tantalate and bonding layer of Pt–Ir based superalloys.At the same time,it is prospected the application of material genome engineering in the research and development of ultra-high temperature thermal barrier coatings.
作者
梁迎雪
余威
周云轩
干梦迪
魏燕
张健康
陈永泰
叶波
种晓宇
冯晶
LIANG Yingxue;YU Wei;ZHOU Yunxuan;GAN Mengdi;WEI Yan;ZHANG Jiankang;CHEN Yongtai;YE Bo;CHONG Xiaoyu;FENG Jing(Faculty of Materials Science and Engineering,Kunming University of Science and Technology,Kunming 650093,China;Sino-Precious Metals Holding Co.,Ltd.,Kunming 650106,China;Faculty of Information Engineering and Automation,Kunming University of Science and Technology,Kunming 650504,China)
出处
《航空制造技术》
CSCD
北大核心
2021年第18期98-112,共15页
Aeronautical Manufacturing Technology
基金
云南省重大科技专项(202002AB080001-1,202102AB080019)
国家自然科学基金重大研究计划(91960103)
云南省优秀青年基金(202101AW070011)。
关键词
材料基因工程
稀土钽酸盐
Pt–Ir基高温合金
第一性原理计算
机器学习
Material genome engineering
Rare earth tantalate
Pt–Ir based superalloys
First-principles calculations
Machine learning
