Microstructure performance and formation mechanism of laser alloying rare earth oxides modified nanocrystalline layer on TA7

Ma Qingyu; Gao Xun; Li Jianquan

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Microstructure performance and formation mechanism of laser alloying rare earth oxides modified nanocrystalline layer on TA7

机译：TA7激光合金化稀土氧化物改性纳米晶层的组织性能及形成机理

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Nanoscale particles (NP) were observed in a Ni60-Ag-Si3N4-Y2O3 laser alloying (LA) layer on a TA7 titanium alloy, NP usually locate on the grain boundaries, which are able to block the motion of dislocation in a certain extent. Such layer mainly consisted of gamma-Ni, TiN, gamma-(Fe, Ni), TiAg and lots of amorphous phases. The wear resistance of such layer with laser scanning speed 3 mm/s was better than that of a LA layer with 6 mm/s, which was mainly ascribed to an uniform microstructure and less defect of layer. The high laser scanning speed made the existing time of laser molten pool be shorter than before, favoring the formation of a fine microstructure. However, the defects, such as pores were produced in LA layer (higher scanning speed), decreasing the wear resistance. (C) 2015 Elsevier B.V. All rights reserved.

机译：在TA7钛合金的Ni60-Ag-Si3N4-Y2O3激光合金化（LA）层中观察到纳米级颗粒（NP），NP通常位于晶界上，能够在一定程度上阻止位错运动。这种层主要由γ-Ni，TiN，γ-（Fe，Ni），TiAg和许多非晶相组成。激光扫描速度为3mm / s的这种层的耐磨性优于6mm / s的LA层的耐磨性，这主要归因于均匀的微观结构和较少的层缺陷。较高的激光扫描速度使激光熔池的存在时间比以前更短，有利于形成精细的微结构。但是，在LA层中会产生诸如气孔之类的缺陷（较高的扫描速度），从而降低了耐磨性。（C）2015 Elsevier B.V.保留所有权利。

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《Physica, E. Low-dimensional systems & nanostructures》 |2016年第null期|共5页
作者
Ma Qingyu; Gao Xun; Li Jianquan;
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正文语种 eng
中图分类半导体物理学;特种结构材料;
关键词
Metal-matrix composites (MMCs); Surface properties; Surface treatments; Laser alloying;

机译：金属基复合材料（MMCs）;表面性能;表面处理;激光合金化;

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1. Microstructure performance and formation mechanism of laser alloying rare earth oxides modified nanocrystalline layer on TA7 [J] . Ma Qingyu, Gao Xun, Li Jianquan Physica, E. Low-dimensional systems & nanostructures . 2016,第Null期

机译：TA7激光合金化稀土氧化物改性纳米晶层的组织性能及形成机理
2. Microstructure of laser-clad Ni60 cladding layers added with different amounts of rare-earth oxides on 6063 Al alloys [J] . Chenglei Wang, Yuan Gao, Rong Wang, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：在6063 al合金上添加不同量的稀土氧化物加入的激光包层Ni60覆层层的微观结构
3. Enhanced photovoltaic performances of the dye-sensitized solar cell by utilizing rare-earth modified tin oxide compact layer [J] . Jingyi Yue, Yaoming Xiao, Yanping Li, Organic Electronics . 2017,第APRa期

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4. Effect of Nanocrystalline Mixed Rare Earth Oxide Coatings on the High Temperature Oxidation Behavior of Fe-20Cr Alloy [C] . S. M. C. Fernandes, O. V. Correa, L. V. Ramanathan European Corrosion Congress . 2017

机译：纳米晶混合稀土氧化物涂料对Fe-20Cr合金高温氧化行为的影响
5. Fabrication, microstructure, properties and deformation mechanisms of a nanocrystalline aluminum-iron-chromium-titanium alloy by mechanical alloying. [D] . Luo, Hong. 2005

机译：机械合金化纳米晶铝铁铬钛合金的制备，微观结构，性能和变形机理。
6. Hot Deformation Behavior and Microstructure Evolution of 6063 Aluminum Alloy Modified by Rare Earth Y and Al-Ti-B Master Alloy [O] . Wanwu Ding, Xiaoxiong Liu, Xiaoyan Zhao, 2020

机译：稀土y和Al-Ti-B主合金改性6063铝合金的热变形行为和微观结构演化
7. Hot Deformation Behavior and Microstructure Evolution of 6063 Aluminum Alloy Modified by Rare Earth Y and Al-Ti-B Master Alloy [O] . Wanwu Ding, Xiaoxiong Liu, Xiaoyan Zhao, 2020

机译：稀土y和Al-Ti-B主合金改性6063铝合金的热变形行为和微观结构演化
8. Dynamic Oxidation Mechanisms of Selected Rare-Earth-Base Alloys. [R] . lundin,charles e. 1974

机译：稀土基合金的动态氧化机理。

Microstructure performance and formation mechanism of laser alloying rare earth oxides modified nanocrystalline layer on TA7

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