Surface modification of low alloy steel by laser melting

K.A. Qureshi; N. Hussain; J.I. Akhter

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Surface modification of low alloy steel by laser melting

机译：低合金钢的激光熔融表面改性

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Surface modification of low alloy steel (LAS) has been achieved by laser melting and Ni alloying. Specimens of LAS were coated with Ni by PVD and electro-deposition techniques followed by laser beam melting. The Ni coating produced by PVD technique could not produce the requisite alloying during the laser melting. In case of LAS specimens coated electrochemically, the iron-nickel binary alloys of different compositions were formed with varying laser beam traverse speed. The surface alloys produced ranged in composition from 20.8 to 33.6 wt. percent Ni, where laser beam speed was varied from 10 to 100 mm/min. The binary alloy containing 20.8 wt. percent Ni was produced, at 10 mm/min laser beam speed, with martensite as major harder phase, whereas alloys with higher Ni content, produced at higher laser beam speed, retained soft gamma-phase.

机译：低合金钢（LAS）的表面改性已通过激光熔化和镍合金化实现。通过PVD和电沉积技术，然后通过激光束熔化，用Ni涂覆LAS的样品。通过PVD技术生产的Ni涂层在激光熔化过程中无法产生必需的合金。在用电化学方法涂覆LAS试样的情况下，以不同的激光束移动速度形成了不同成分的铁-镍二元合金。产生的表面合金的组成范围为20.8至33.6重量％。镍百分比，激光束速度从10毫米/分钟到100毫米/分钟不等。含有20.8 wt。在10 mm / min的激光束速度下，以马氏体为主要硬质相生产出的Ni含量为100％，而在更高的激光束速度下生产的Ni含量较高的合金则保留了软γ相。

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来源
《Materials Letters》 |2005年第6期|p.719-722|共4页
作者
K.A. Qureshi; N. Hussain; J.I. Akhter;
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作者单位

advanced Materials Laboratory, P.O. Nilore, Islamabad, Pakistan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
Surface modification; Laser processing; Microstructure; Martensitic transformation; Hardness;

机译：表面改性激光加工显微组织马氏体转变硬度;
入库时间 2022-08-17 13:20:05

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Surface modification of low alloy steel by laser melting

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