Laser assisted deposition of graded overlay of Stellite 6 on austenitic stainless steel

IF 0.6 4区 工程技术 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Lasers in Engineering Pub Date : 2002-01-01 DOI:10.1080/0898150021000039301
R. Kaul, P. Ganesh, M. Tiwari, A. Singh, P. Tripathi, Ajay Gupta, A. Nath
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引用次数: 10

Abstract

Hardfacing by Stellite is extensively employed in many engineering applications for enhancing high temperature wear, oxidation and corrosion resistance of austenitic stainless steel components. These overlaid components, because of large difference in thermo-physical and mechanical properties between clad and substrate, are largely prone to cracking. Cracking resistance of Stellite 6 clad austenitic stainless steel components can be greatly enhanced by providing smooth composition gradient across substrate-clad interface. This article presents development of graded overlay of Stellite 6 on AISI 304 stainless steel substrate using 2.5 kW continuous wave CO 2 laser and their comparison with directly Stellite 6 clad AISI 304 stainless steel specimens. Graded overlaying of Stellite 6 effected significant reduction in microhardness gradient across substrate-clad interface with respect to that of directly Stellite 6 clad specimens. Thermal cycling tests, performed on laser-cladded specimens, demonstrated superi...
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激光辅助沉积奥氏体不锈钢上的渐变覆盖层
钨铬钴合金堆焊广泛应用于许多工程应用中,以提高奥氏体不锈钢部件的高温耐磨性、抗氧化性和耐腐蚀性。由于覆盖层和基材之间的热物理和机械性能差异很大,这些覆盖部件很容易开裂。通过在基体-包覆界面上提供光滑的成分梯度,可大大提高钨铬钴酸盐6包覆奥氏体不锈钢构件的抗裂性。本文介绍了利用2.5 kW连续波co2激光在AISI 304不锈钢基体上进行钨铬钴合金6梯度覆盖层的研究进展,并与直接覆盖的AISI 304不锈钢试样进行了比较。与直接包覆钨铬钴合金试样相比,钨铬钴合金6的梯度覆盖显著降低了基体-包覆界面的显微硬度梯度。热循环测试,在激光包覆试样进行,证明了超…
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来源期刊
Lasers in Engineering
Lasers in Engineering 工程技术-材料科学:综合
CiteScore
1.00
自引率
20.00%
发文量
0
审稿时长
3.4 months
期刊介绍: Lasers in Engineering publishes original (primary) research articles, reviews, short communications and letters on all aspects relating to the application of lasers in the many different branches of engineering and related disciplines. The topics covered by Lasers in Engineering are the use of lasers: in sensors or measuring and for mapping devices; in electrocomponent fabrication; for materials processing; as integral parts of production assemblies; within the fields of biotechnology and bioengineering; in micro- and nanofabrication; as well as the materials and processing aspects of techniques such as cutting, drilling, marking, cladding, additive manufacturing (AM), alloying, welding and surface treatment and engineering. Lasers in Engineering presents a balanced account of future developments, fundamental aspects and industrial innovations driven by the deployment of lasers. Modern technology has a vitally important role to play in meeting the increasingly stringent demands made on material and production systems. Lasers in Engineering provides a readily accessible medium for the rapid reporting of new knowledge, and technological and scientific advances in these areas.
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An analysis of the bonding mechanisms active in a high power diode laser generated two-stage ceramic tile grout Laser surface alloying of an Mg alloy with Al + Mn to improve corrosion resistance Laser assisted deposition of graded overlay of Stellite 6 on austenitic stainless steel Microstructure and corrosion properties of laser clads of magnesium base alloys for laser generated cylinder liners Numerical investigation of laser beam shaping for heat transfer control in laser processing
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