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Lasers in Manufacturing and Materials Processing

Erschienen in:

01.12.2015

Microstructure and Wear Behavior of Laser Clad Multi-layered Fe-based Amorphous Coatings on Steel Substrates

verfasst von: Tanaji Paul, S. Habib Alavi, Sourabh Biswas, Sandip P. Harimkar

Erschienen in: Lasers in Manufacturing and Materials Processing | Ausgabe 4/2015

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Abstract

Single and multi-layered (with two and three layers) coatings of Fe₄₈Cr₁₅Mo₁₄Y₂C₁₅B₆ amorphous alloy were applied to AISI 1018 steel substrates via laser cladding. XRD analysis indicated partial retention of the amorphous phase along with the formation of oxide and carbide phases. Cross-sectional SEM micrographs revealed relatively sound coatings laser clad with single layer of amorphous alloy; however, cracks and voids were observed in the two and three layered amorphous coatings. The specimens with single and two layered amorphous coatings exhibited surface hardness of about 650 VHN while the hardness of the specimens with three layered amorphous coatings (~1100 VHN) nearly equaled the hardness of previously reported sintered amorphous alloys of similar compositions. The ball-on-disc wear analysis demonstrated a reverse trend wherein the single and two layered amorphous coatings exhibited lower weight loss during the wear test cycle due to superior surface soundness while the three layered amorphous coatings showed aggravated wear due to internal voids and cracks.

Vorheriger Artikel Laser Controllable Growth of Graphene via Ni-Cu Alloy Composition Modulation

Nächster Artikel Direct Metal Deposition of H13 Tool Steel on Copper Alloy Substrate: Parametric Investigation

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Titel: Microstructure and Wear Behavior of Laser Clad Multi-layered Fe-based Amorphous Coatings on Steel Substrates
verfasst von: Tanaji Paul
S. Habib Alavi
Sourabh Biswas
Sandip P. Harimkar
Publikationsdatum: 01.12.2015
Verlag: Springer US
Erschienen in: Lasers in Manufacturing and Materials Processing / Ausgabe 4/2015
Print ISSN: 2196-7229
Elektronische ISSN: 2196-7237
DOI: https://doi.org/10.1007/s40516-015-0017-0

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