Modeling study of solid-particle erosion with consideration of particle velocity dependent model parameters

From National Research Council Canada

DOIResolve DOI: https://doi.org/10.1142/S1793962316500264
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Name affiliation
  1. National Research Council of Canada. Aerospace
FormatText, Article
Journal titleInternational Journal of Modeling, Simulation, and Scientific Computing
ISSN1793-9623
1793-9615
Article number1650026
SubjectSolid-particle erosion; Particle impact velocity; Particle impingement angle; Cutting wear; Deformation wear; Erosion rate
Abstract
An advanced erosion model that correlates two model parameters—the energies required to remove unit mass of target material during cutting wear and deformation wear, respectively, with particle velocity, particle size and density, as well as target material properties, is proposed. This model is capable of predicting the erosion rates for a material under solid-particle impact over a specific range of particle velocity at the impingement angle between 0° and 90°, provided that the experimental data of erosion rate for the material at a particle velocity within this range and at impingement angles between 0° and 90° are available. The proposed model is applied on three distinct types of materials: aluminum, perspex and graphite, to investigate the dependence behavior of the model parameters on particle velocity for ductile and brittle materials. The predicted model parameters obtained from the model are validated by the experimental data of aluminum plate under Al₂O₃ particle impact. The significance and limitation of the model are discussed; possible improvements on the model are suggested.
Publication date
PublisherWorld Scientific Publishing
LanguageEnglish
Peer reviewedYes
NPARC number23000405
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Record modified2020-03-16
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