Development of a constitutive model for erosion based on dissipated particle energy to predict the wear rate of ductile metals Biswas, Subhankar, Williams, Kenneth and Jones, Mark 2018, Development of a constitutive model for erosion based on dissipated particle energy to predict the wear rate of ductile metals, Wear, vol. 404-405, pp. 166-175, doi: 10.1016/j.wear.2018.02.021. Attached Files Name Description MIMEType Size Downloads Title Development of a constitutive model for erosion based on dissipated particle energy to predict the wear rate of ductile metals Author(s) Biswas, Subhankar orcid.org/0000-0003-2236-9602 Williams, Kenneth Jones, Mark Journal name Wear Volume number 404-405 Start page 166 End page 175 Total pages 10 Publisher Elsevier Place of publication Amsterdam, The Netherlands Publication date 2018-06-15 ISSN 0043-1648 Keyword(s) erosion model energy factors materials properties erosion rate experimental comparison science & technology technology engineering, mechanical materials science, multidisciplinary engineering materials science angular particles finite element numerical stimulation practical estimation impact targets damage flow Language eng DOI 10.1016/j.wear.2018.02.021 Field of Research 0912 Materials Engineering 0913 Mechanical Engineering HERDC Research category C1 Refereed article in a scholarly journal Copyright notice ©2018, Elsevier B.V. Persistent URL http://hdl.handle.net/10536/DRO/DU:30109041 Document type: Journal Article Collections: Institute for Frontier Materials GTP Research Related Links Link Description Connect to published version Go to link with your DU access privileges     Unless expressly stated otherwise, the copyright for items in DRO is owned by the author, with all rights reserved. Versions Version Filter Type Tue, 05 Jun 2018, 13:51:10 EST Wed, 06 Jun 2018, 05:02:54 EST Wed, 06 Jun 2018, 08:08:22 EST Sat, 16 Jun 2018, 02:30:35 EST Sat, 30 Jun 2018, 06:04:29 EST Mon, 02 Jul 2018, 11:01:27 EST Mon, 02 Jul 2018, 11:03:29 EST Mon, 02 Jul 2018, 11:04:08 EST Filtered Full Citation counts:   Cited 7 times in TR Web of Science Cited 7 times in Scopus Search Google Scholar Access Statistics: 55 Abstract Views, 3 File Downloads  -  Detailed Statistics Created: Tue, 05 Jun 2018, 13:51:10 EST

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