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| 11. |
Fe–Cr–Ni–Mo–Ru ALLOYS PRODUCED BY LASER SURFACE ALLOYING |
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Surface Engineering,
Volume 12,
Issue 3,
1996,
Page 246-250
TjongS. C.,
LinW. B.,
KuJ. S.,
HoN. J.,
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摘要:
AbstractLaser surface alloying of duplex 2205 stainless steel with prep laced ruthenium powder has been investigated. The microstructure and corrosion behaviour of the laser surface alloyed layers were examined by scanning electron microscopy, energy dispersive X-ray spectrometry, microhardness, and open circuit corrosion potential measurements. The microstructure of the surface alloyed layers consisted mainly of fine cellular dendrites; spectrometric analyses indicated that ruthenium contents as high as 23·30 wt-% could be produced. These features are presumed to be responsible for the higher hardness values observed in the alloyed layer. The open circuit corrosion potentials of the layers containing ruthenium were displaced towards more noble values in reducing acid solutions, resulting in spontaneous passivation of the alloy layer surface.
ISSN:0267-0844
DOI:10.1179/sur.1996.12.3.246
出版商:Taylor&Francis
年代:1996
数据来源: Taylor
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| 12. |
LASER METAL FORMING: PROCESS FUNDAMENTALS |
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Surface Engineering,
Volume 12,
Issue 3,
1996,
Page 251-259
GremaudM.,
D.I.,
ZrydA.,
KurzW.,
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PDF (2769KB)
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摘要:
AbstractLaser metal fornling (LMF) is an innovative application for lasers with industrial potential for small series production, rapid prototyping, or repair engineering. It consists in the production of full strength metallic engineering components using a three-dimensional laser cladding process. Prototypes produced by LMF can be used to test the performance and reliability aspects of a particular design and must therefore have physical and mechanical properties similar to those of the mass produced part. The LMF technique can also be used to repair metallic parts and improve their life cycle behaviour. The fundamental aspects of this free forming technique were investigated to contribute to the physical understanding and to better control of the process. To this end, only simple geometrical parts have been produced. It was found that the dimensions, the shape, the shape instabilities, and the surface quality of the final components depend on the melt dynamics and on the kinetics of oxide formation at the surface of the alloy. Process conditions leading to the production of high quality parts have been determined for materials including steels, Stellite 6, IN 625 superalloy, and tin. The parts produced exhibit microstructures consisting of fine columnar dendritic grains without porosity and with mechanical properties equal to those of cast material.
ISSN:0267-0844
DOI:10.1179/sur.1996.12.3.251
出版商:Taylor&Francis
年代:1996
数据来源: Taylor
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