State of residual stress in laser-deposited ceramic composite coatings on aluminum alloys

P. B. Kadolkar; T. R. Watkins; J. Th. M. De Hosson; B. J. Kooi; N. B. Dahotre

doi:10.1016/j.actamat.2006.07.049

State of residual stress in laser-deposited ceramic composite coatings on aluminum alloys

P. B. Kadolkar, T. R. Watkins, J. Th. M. De Hosson, B. J. Kooi, N. B. Dahotre^*

^*Corresponding author for this work

Zernike Institute for Advanced Materials

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

The nature and magnitude of the residual stresses within laser-deposited titanium carbide (TiC) coatings on 2024 and 6061 aluminum (Al) alloys were investigated. Macro- and micro-stresses within the coatings were determined using an X-ray diffraction method. Owing to increased debonding between the coating and the substrate, the macro-stresses were found to be compressive and to decrease in magnitude with increasing processing speed. The origin of the macro- and micro-stresses is discussed. To that end, transmission electron microscopy observations showed no evidence of plastic deformation within selected coatings. The micro-stresses in the TiC particulate and aluminum matrix phases within the coatings were found to be independent of the amount of debonding. This study could assist ill optimizing the processing parameters to fabricate composite coatings for specific applications. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Original language	English
Pages (from-to)	1203-1214
Number of pages	12
Journal	Acta Materialia
Volume	55
Issue number	4
DOIs	https://doi.org/10.1016/j.actamat.2006.07.049
Publication status	Published - Feb-2007

Keywords

residual stresses
laser treatment
composites
coatings
X-ray diffraction
X-RAY-DIFFRACTION
METAL MATRIX COMPOSITES
AL-ALLOY
STEEL
MICROSTRUCTURE

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@article{0ddfb98d12df427fad0a2931dbd3a89f,

title = "State of residual stress in laser-deposited ceramic composite coatings on aluminum alloys",

abstract = "The nature and magnitude of the residual stresses within laser-deposited titanium carbide (TiC) coatings on 2024 and 6061 aluminum (Al) alloys were investigated. Macro- and micro-stresses within the coatings were determined using an X-ray diffraction method. Owing to increased debonding between the coating and the substrate, the macro-stresses were found to be compressive and to decrease in magnitude with increasing processing speed. The origin of the macro- and micro-stresses is discussed. To that end, transmission electron microscopy observations showed no evidence of plastic deformation within selected coatings. The micro-stresses in the TiC particulate and aluminum matrix phases within the coatings were found to be independent of the amount of debonding. This study could assist ill optimizing the processing parameters to fabricate composite coatings for specific applications. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.",

keywords = "residual stresses, laser treatment, composites, coatings, X-ray diffraction, X-RAY-DIFFRACTION, METAL MATRIX COMPOSITES, AL-ALLOY, STEEL, MICROSTRUCTURE",

author = "Kadolkar, {P. B.} and Watkins, {T. R.} and {De Hosson}, {J. Th. M.} and Kooi, {B. J.} and Dahotre, {N. B.}",

year = "2007",

month = feb,

doi = "10.1016/j.actamat.2006.07.049",

language = "English",

volume = "55",

pages = "1203--1214",

journal = "Acta Materialia",

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TY - JOUR

T1 - State of residual stress in laser-deposited ceramic composite coatings on aluminum alloys

AU - Kadolkar, P. B.

AU - Watkins, T. R.

AU - De Hosson, J. Th. M.

AU - Kooi, B. J.

AU - Dahotre, N. B.

PY - 2007/2

Y1 - 2007/2

N2 - The nature and magnitude of the residual stresses within laser-deposited titanium carbide (TiC) coatings on 2024 and 6061 aluminum (Al) alloys were investigated. Macro- and micro-stresses within the coatings were determined using an X-ray diffraction method. Owing to increased debonding between the coating and the substrate, the macro-stresses were found to be compressive and to decrease in magnitude with increasing processing speed. The origin of the macro- and micro-stresses is discussed. To that end, transmission electron microscopy observations showed no evidence of plastic deformation within selected coatings. The micro-stresses in the TiC particulate and aluminum matrix phases within the coatings were found to be independent of the amount of debonding. This study could assist ill optimizing the processing parameters to fabricate composite coatings for specific applications. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

AB - The nature and magnitude of the residual stresses within laser-deposited titanium carbide (TiC) coatings on 2024 and 6061 aluminum (Al) alloys were investigated. Macro- and micro-stresses within the coatings were determined using an X-ray diffraction method. Owing to increased debonding between the coating and the substrate, the macro-stresses were found to be compressive and to decrease in magnitude with increasing processing speed. The origin of the macro- and micro-stresses is discussed. To that end, transmission electron microscopy observations showed no evidence of plastic deformation within selected coatings. The micro-stresses in the TiC particulate and aluminum matrix phases within the coatings were found to be independent of the amount of debonding. This study could assist ill optimizing the processing parameters to fabricate composite coatings for specific applications. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

KW - residual stresses

KW - laser treatment

KW - composites

KW - coatings

KW - X-ray diffraction

KW - X-RAY-DIFFRACTION

KW - METAL MATRIX COMPOSITES

KW - AL-ALLOY

KW - STEEL

KW - MICROSTRUCTURE

U2 - 10.1016/j.actamat.2006.07.049

DO - 10.1016/j.actamat.2006.07.049

M3 - Article

SN - 1359-6454

VL - 55

SP - 1203

EP - 1214

JO - Acta Materialia

JF - Acta Materialia

IS - 4

ER -

State of residual stress in laser-deposited ceramic composite coatings on aluminum alloys

Abstract

Keywords

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