In-situ synthesis of a carbide reinforced steel matrix surface nanocomposite by laser melt injection technology and subsequent heat treatment

Verezub O; Kalazi Z; Buza G; Verezub NV; Kaptay G

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In-situ synthesis of a carbide reinforced steel matrix surface nanocomposite by laser melt injection technology and subsequent heat treatment

机译：激光熔喷技术及后续热处理原位合成碳化物增强钢基表面纳米复合材料

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The concept of in-situ synthesis of composites by laser melt injection technology is introduced, dictated by the minimum size requirement for particles being able to incorporate into liquid metals. The mixture of relatively large Ti and WC particles are blown into the laser melted pool of a low-alloyed steel substrate. Macroscopically, the 1-mm thick melted layer appears to be homogeneous, due to the strong Marangoni convection. Sub-micron-sized (Ti, W)C primary particles are precipitated from liquid steel upon fast cooling and solidification. Upon heat treatment a large number of nano-sized (Fe,W)(6)C particles precipitated from the oversaturated steel matrix. The microhardness of the composite layer is considerably higher compared to that of the initial steel matrix. (C) 2009 Elsevier B.V. All rights reserved.

机译：引入了通过激光熔体注射技术原位合成复合物的概念，该概念由能够掺入液态金属中的颗粒的最小尺寸要求所决定。相对较大的Ti和WC颗粒的混合物被吹入低合金钢基材的激光熔池中。在宏观上，由于强烈的马兰戈尼对流，厚度为1毫米的熔融层似乎是均匀的。在快速冷却和固化后，亚微米级（Ti，W）C初级颗粒从液态钢中沉淀出来。热处理后，大量的纳米级（Fe，W）（6）C颗粒从过饱和的钢基质中沉淀出来。与最初的钢基体相比，复合层的显微硬度高得多。（C）2009 Elsevier B.V.保留所有权利。

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《Surface & Coatings Technology》 |2009年第21期|共9页
作者
Verezub O; Kalazi Z; Buza G; Verezub NV; Kaptay G;
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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
In-situ laser melt injection; Heat treatment; Carbide precipitates; Steels; Surface nano-composites;

机译：原位激光熔体注射;热处理;碳化物沉淀;钢;表面纳米复合材料;

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1. In-situ synthesis of a carbide reinforced steel matrix surface nanocomposite by laser melt injection technology and subsequent heat treatment [J] . Verezub O, Kalazi Z, Buza G, Surface & Coatings Technology . 2009,第20a21期

机译：激光熔喷技术及后续热处理原位合成碳化物增强钢基表面纳米复合材料
2. Performance of a cutting tool made of steel matrix surface nano-composite produced by in situ laser melt injection technology [J] . O. Verezub, Z. Kalazi, A. Sytcheva, Journal of Materials Processing Technology . 2011,第4期

机译：原位激光熔体注入技术制备的钢基表面纳米复合材料切削刀具的性能
3. Classification of laser beam induced surface engineering technologies and in situ synthesis of steel matrix surface nanocomposites [J] . O. Verezub, Z. Kalazi, G. Buza Surface Engineering . 2011,第6期

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4. In Situ Synthesis of a Wear Resistant Layer on the Surface of Low Carbon Steel Produced by Laser Melt Injection Technology [C] . Valeria Mertinger, Gabor Buza, Balazs Major Hungarian conference on materials science . 2013

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5. Effects of Heat Treatments and Compositional Modification on Carbide Network and Matrix Microstructure in Ultrahigh Carbon Steels [D] . Hecht, Matthew David. 2017

机译：热处理和成分改性对超高碳钢中碳化物网络和基体组织的影响
6. Effects of Heating and Cooling of Injection Mold Cavity Surface and Melt Flow Control on Properties of Carbon Fiber Reinforced Semi-Aromatic Polyamide Molded Products [O] . Yasuhiko Murata, Ryota Kanno 2021

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7. In Situ Synthesis of a Wear Resistant Layer on the Surface of Low Carbon Steel produced by Laser Melt Injection Technology [O] . Mertinger Valéria, Búza Gábor, Major Balázs 2013

机译：激光熔铸技术在低碳钢表面上耐磨层的原位合成

In-situ synthesis of a carbide reinforced steel matrix surface nanocomposite by laser melt injection technology and subsequent heat treatment

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