Laser processing as a high-throughput method to investigate microstructure-processing-property relationships in multiprincipal element alloys

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Laser processing as a high-throughput method to investigate microstructure-processing-property relationships in multiprincipal element alloys

机译：激光加工作为一种高通量的方法，以研究多丙烯元件合金中的微观结构 - 处理性质关系

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A direct laser deposition processing method was applied to construct compositional and microstructural libraries of AlxCoCrFeNi in an efficient and high-throughput manner. Among the compositions (x = 0.51 -1.25) and quench rates (26-6400 K/s) studied, most of the laser deposited alloys exhibit a cellular microstructure, similar to the cast materials. The microstructural feature sizes were found to follow a power law relationship with the quench rate. The dependence of the microhardness on microstructural length scale was also investigated and observed to follow a Hall-Petch relationship. This study indicates that laser processing is an effective method for rapidly and efficiently evaluating multiprincipal element alloys and their microstructures. (C) 2020 Elsevier B.V. All rights reserved.

机译：施用直接激光沉积处理方法以以有效和高通量的方式构建AlxcocroCeni的组成和微观结构文库。在组合物（X = 0.51 -1.25）中和淬火速率（26-6400k / s）中，大多数激光沉积的合金表现出蜂窝微观结构，类似于铸造材料。发现微观结构特征尺寸跟随淬火率的电力法关系。还研究了微硬度对微观结构长度尺度的依赖性，并观察到遵循霍尔辅助关系。该研究表明，激光加工是一种有效的方法，用于快速有效地评估多丙烯元件合金及其微观结构。（c）2020 Elsevier B.v.保留所有权利。

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2020年第2020期|共8页
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正文语种 eng
中图分类合金学与各种性质合金;金属材料;
关键词
High-entropy alloys; Direct laser deposition; Microstructure; Mechanical property;

机译：高熵合金;直接激光沉积;微观结构;机械性能;

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1. Laser processing as a high-throughput method to investigate microstructure-processing-property relationships in multiprincipal element alloys [J] . Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2020,第期

机译：激光加工作为一种高通量的方法，以研究多丙烯元件合金中的微观结构 - 处理性质关系
2. Investigation of Lagrangian and Eulerian finite element methods for modeling the laser forming process [J] . Lu Zhang, P. Michaleris Finite Elements in Analysis and Design . 2004,第4期

机译：拉格朗日和欧拉有限元方法对激光成形过程建模的研究
3. Application of Finite Element Method (FEM) for definition of the relationship between properties of laser alloyed steel surface layer [J] . Bonek M., ?liwa A. Metalurgija . 2017,第1a2期

机译：有限元法（FEM）在定义激光合金钢表层性能之间的关系中的应用
4. A Methodology for Investigating and Modelling Laser Clad Bead Geometry and Process Parameter Relationships [C] . Kush Aggarwal, Ruth Urbanic, Luv Aggarwal SAE World Congress and Exhibition . 2014

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5. Multiprincipal Element Alloy Development via High-Throughput Experiments [D] . Li, Mu. 2021

机译：通过高通量实验的多丙烯元件合金开发
6. Effect of Laser Parameters on Processing of Biodegradable Magnesium Alloy WE43 via Selective Laser Melting Method [O] . Jan Suchy, Miroslava Horynová, Lenka Klakurková, 2020

机译：激光参数对选择性激光熔融法加工可降解镁合金WE43的影响
7. The microstructure-processing-property relationships in an Al matrix composite system reinforced by Al-Cu-Fe alloy particles [O] . Tang, Fei 2004

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Laser processing as a high-throughput method to investigate microstructure-processing-property relationships in multiprincipal element alloys

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