Analysis of the mechanical properties of an arc-sprayed WC-FeCSiMn coating: Nanoindentation and simulation

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Analysis of the mechanical properties of an arc-sprayed WC-FeCSiMn coating: Nanoindentation and simulation. / Tillmann, Wolfgang; Klusemann, B.; Nebel, J. et al.
in: Journal of Thermal Spray Technology, Jahrgang 20, Nr. 1-2, 01.2011, S. 328-335.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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@article{1015a60aa06d4ba9bfb15a28413f47c4,
title = "Analysis of the mechanical properties of an arc-sprayed WC-FeCSiMn coating: Nanoindentation and simulation",
abstract = "The characterization of thermal-sprayed coatings is often limited to microstructural analysis to evaluate the coatings morphology. Indentation is commonly used to determine the mechanical properties of different kinds of engineering materials. However, due to the complex structure of thermal-sprayed coatings, few results have been obtained so far. In this article, experimental nanoindentation tests and simulation results are compared. The experimental indentation tests show scattering in the force-deformation data due to the complex structure of the arc-sprayed coating which is investigated by means of an indentation test simulation. Based on the results for single constituent parts of the coating, the Young's modulus as well as further mechanical properties are identified. A general procedure is presented to predict the effective mechanical properties based on the microstructure, porosity, chemical composition, and properties of the coating after thermal spraying.",
keywords = "Engineering",
author = "Wolfgang Tillmann and B. Klusemann and J. Nebel and Bob Svendsen",
year = "2011",
month = jan,
doi = "10.1007/s11666-010-9550-8",
language = "English",
volume = "20",
pages = "328--335",
journal = "Journal of Thermal Spray Technology",
issn = "1059-9630",
publisher = "Springer US",
number = "1-2",

}

RIS

TY - JOUR

T1 - Analysis of the mechanical properties of an arc-sprayed WC-FeCSiMn coating

T2 - Nanoindentation and simulation

AU - Tillmann, Wolfgang

AU - Klusemann, B.

AU - Nebel, J.

AU - Svendsen, Bob

PY - 2011/1

Y1 - 2011/1

N2 - The characterization of thermal-sprayed coatings is often limited to microstructural analysis to evaluate the coatings morphology. Indentation is commonly used to determine the mechanical properties of different kinds of engineering materials. However, due to the complex structure of thermal-sprayed coatings, few results have been obtained so far. In this article, experimental nanoindentation tests and simulation results are compared. The experimental indentation tests show scattering in the force-deformation data due to the complex structure of the arc-sprayed coating which is investigated by means of an indentation test simulation. Based on the results for single constituent parts of the coating, the Young's modulus as well as further mechanical properties are identified. A general procedure is presented to predict the effective mechanical properties based on the microstructure, porosity, chemical composition, and properties of the coating after thermal spraying.

AB - The characterization of thermal-sprayed coatings is often limited to microstructural analysis to evaluate the coatings morphology. Indentation is commonly used to determine the mechanical properties of different kinds of engineering materials. However, due to the complex structure of thermal-sprayed coatings, few results have been obtained so far. In this article, experimental nanoindentation tests and simulation results are compared. The experimental indentation tests show scattering in the force-deformation data due to the complex structure of the arc-sprayed coating which is investigated by means of an indentation test simulation. Based on the results for single constituent parts of the coating, the Young's modulus as well as further mechanical properties are identified. A general procedure is presented to predict the effective mechanical properties based on the microstructure, porosity, chemical composition, and properties of the coating after thermal spraying.

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=78650694516&partnerID=8YFLogxK

U2 - 10.1007/s11666-010-9550-8

DO - 10.1007/s11666-010-9550-8

M3 - Journal articles

AN - SCOPUS:78650694516

VL - 20

SP - 328

EP - 335

JO - Journal of Thermal Spray Technology

JF - Journal of Thermal Spray Technology

SN - 1059-9630

IS - 1-2

ER -

DOI