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Author Baumung, K. ♦ Muller, G. ♦ Singer, J. ♦ Kanel, G. I. ♦ Razorenov, S. V.
Sponsorship (US)
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Publisher The American Physical Society
Language English
Subject Keyword CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ♦ COATINGS ♦ CROSS SECTIONS ♦ ION BEAMS ♦ PLASMA ♦ PROTON BEAMS ♦ SPALLATION ♦ SPRAYED COATINGS
Abstract We present an application of the spall technique for studying the strength, homogeneity, and adhesion of plasma sprayed coatings on a metal substrate. We used a flyer plate impact and a pulsed high-power proton beam to generate short, intense pressure pulses. To study adhesion it is necessary to provide a spall fracture at the interface. This was realized due to the bell-shaped power profile in the ion beam cross section. As a result, the spall fracture inside the samples occurred in tests with the ion beam, at different distances from the surface, including the interface between the coating and the substrate. Using a line-imaging laser-Doppler velocimeter, we were able to measure the free surface velocity histories for a range of load parameters in each experiment. The results of the measurements demonstrate the great influence of annealing on the homogeneity and strength of the coating and a lesser influence of the substrate temperature at coating on the adhesion. {copyright} 2001 American Institute of Physics.
ISSN 00218979
Educational Use Research
Learning Resource Type Article
Publisher Date 2001-06-01
Publisher Place United States
Journal Journal of Applied Physics
Volume Number 89
Issue Number 11


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