Phase formation of a biocompatible Ti-based alloy under kinetic constraints studied via in-situ high-energy X-ray diffraction

作     者：Konrad Kosiba André Rothkirch Junhee Han Liang Deng Benjamin Escher Gang Wang Uta Kühn Jozef Bednarcik Konrad Kosiba;André Rothkirch;Junhee Han;Liang Deng;Benjamin Escher;Gang Wang;Uta Kühn;Jozef Bednarcik

作者机构：Leibniz IFW Dresden Institute for Complex Materials DESY Photon Science  3. Korea Institute of Industrial Technology (KITECH) Korea Institute for Rare Metals  4. Fraunhofer Institute for Photonic Microsystems IPMS Department of Engineering  5. Laboratory for Microstructures Institute of Materials Shanghai University  6. J. Safarik University in Kosice Institute of Physics Department of Condensed Matter Physics 

出 版 物：《Progress in Natural Science:Materials International》 (自然科学进展·国际材料(英文))

年 卷 期：2020年第30卷第3期

页      面：432-436页

核心收录：

学科分类：08[工学] 080502[工学-材料学] 0805[工学-材料科学与工程（可授工学、理学学位）] 

基　　金：Financial support through the German Science Foundation (DFG) (grant: KO 5771/1–1) 

主　　题：High-energy X-ray diffraction Flash-annealing Phase formation Metallic glass Biocompatible Ti alloy 

摘      要：The biocompatible Ti40Cu34Pd14Zr10Sn2bulk metallic glass was rapidly heated,also known as flash-annealed,at varying heating rates up to 1579 K/***,the phase formation was characterized via advanced in-situ highenergy X-ray *** has been found that the evolving kinetic constraints can be used as a tool to deliberately alter the crystalline phase *** novel processing route permits to select phases to crystallize to a predefined fraction and,thus,to potentially design the microstructure of materials according to a specified ***,flash-annealing poses a unique synthesis route to design materials with,for instance,good biomechanical compatibility.