作为支持预印本发展的重要举措之一, Taylor Francis 非常高兴能与中国科学院( CAS )合作,为在 ChinaXiv 平台上投稿的作者提供精简便捷的论文发表途径。通过参与此试点项目,在上述平台发布预印本的科研人员可以同时选择向 Taylor Francis 出版集团及 德孚 品牌 旗下的相关期刊同步投稿 ...
Abstract Refractory high entropy alloys are strong candidates for high-temperature structural materials, because of their high strength, excellent thermal stability and exceptional softening resistance under high-temperature. However, majority of the existing refractory high entropy alloys a ...
Abstract Despite achieving notable strength and wear resistance in precipitation-strengthened Cantor high-entropy alloy (HEA), the inherent brittleness of precipitates leads to a loss of ductility. In this study, we propose a novel approach to address this issue by introducing nanosized M2 ...