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Influence of laser glazing on properties of diffusion borided layers
2003 (English)In: ICALEO 2003 - 22nd International Congress on Applications of Laser and Electro-Optics, Congress Proceedings, 2003, p. 1506-, article id 1506Conference paper, Published paper (Refereed)
Abstract [en]

Pack boriding of steels is known to possess numerous advantages over conventional techniques like carburizing and nitriding. The combination of high hardness coupled with low co-efficient of friction offered by the diffusion borided layers makes them a promising candidate for combating abrasive, adhesive and erosive wear. However, the boronizing treatment on steels is usually found to result in the formation of a porous, irregular top surface layer and often the borided layer comprises of FeB and Fe2B phases. Of the above, FeB formation is highly undesirable, as it is prone to induce cracking in the coating due to thermal expansion mismatch. While the brittle FeB layer in the boride coating can be eliminated by appropriate post heat treatment or by carefully manipulating the process parameters, porosity and structural irregularity, which play a vital role in tribological performance of the coating, continue to exist in the boride layer. The efficacy of laser post-treatment of the borided layer in overcoming the above problems has been investigated and forms the subject of this paper. A pulsed Nd: YAG laser, capable of delivering an average power of 400W, was utilized for irradiation of the borided layer. Prior to laser treatment, boronizing of En-8 steel samples was carried out by pack-boriding process using an indigenously developed boronizing mixture. The boronized layer was subjected to laser irradiation with varied laser power, under a nitrogen shroud and the laser-treated layers were extensively characterized for surface roughness, phase constitution, microstructure and hardness. Laser glazing resulted in complete densification of the irregular porous top region of the previously boronized layer. An increase in laser power was found to lead to an increase in boride layer depth with accompanying decrease in hardness and porosity. Depending on the laser power employed, distinct microstructures were noted in the treated layer and could be attributed to varying extents of dilution of the boronized layer by Fe from the substrate. Apart from analyzing the influence of laser power on the characteristics of the diffusion borided layer, tribological performance of the laser-treated layers was also evaluated and compared with that of the untreated boride layer. Results of abrasive wear tests indicated substantial improvement in tribological properties and strong dependence on the laser power employed.

Place, publisher, year, edition, pages
2003. p. 1506-, article id 1506
Keywords [en]
Abrasives; Boride coatings; Borides; Boriding; Diffusion; Friction; Glazes; Hardness; Irradiation; Lasers; Microstructure; Pulsed laser applications; Pulsed laser deposition; Semiconductor doping; Surface roughness; Surface treatment; Thermal expansion; Thermal spraying; Tribology, Abrasive wear tests; Average powers; B phases; Boride layers; Boronized layers; Boronizing; Boronizing treatments; Conventional techniques; Erosive wears; High hardnesses; Laser glazings; Laser irradiations; Laser powers; Laser treatments; Pack boriding; Phase constitutions; Process parameters; Process using; Pulsed Nd:YAG lasers; Steel samples; Substantial improvements; Top surfaces; Tribological performances; Tribological properties, Neodymium lasers
Identifiers
URN: urn:nbn:se:hv:diva-8537OAI: oai:DiVA.org:hv-8537DiVA, id: diva2:860176
Conference
ICALEO 2003 - 22nd International Congress on Applications of Laser and Electro-Optics; Jacksonville, FL; United States; 13 October 2003 through 16 October 2003; Code 74101
Available from: 2015-10-10 Created: 2015-10-10 Last updated: 2015-10-10Bibliographically approved

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Joshi, S. V.

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