FAST 2.0 derivation and new analysis of a hydrodynamic model of Speed Skate ice Friction

Download
  1. Get@NRC: FAST 2.0 derivation and new analysis of a hydrodynamic model of Speed Skate ice Friction (Opens in a new window)
AuthorSearch for: ; Search for:
TypeArticle
Proceedings titleProceedings of the International Offshore and Polar Engineering Conference
Conference21st International Offshore and Polar Engineering Conference, ISOPE-2011, 19 June 2011 through 24 June 2011, Maui, HI
ISSN1098-6189
ISBN9781880653968
Pages10151022; # of pages: 8
SubjectHydrodynamic friction; Hydrodynamic model; Ice friction; Lubrication equation; Mathematical derivation; Model results; Mutatis-mutandis; New model; Physical variables; Theory; Thermohydrodynamics; Friction; Hydrodynamics; Ice problems; Recreational facilities; Sensitivity analysis; Tribology; Ice
AbstractThis paper presents the mathematical derivation of a new model of speed skate ice friction. The model acronym is FAST, which stands for Friction Algorithm using Speed Skate Thermohydrodynamics. Mutatis mutandis, it is applicable to other ice friction problems in the hydrodynamic friction regime. The paper updates and corrects an earlier publication of the model (FAST 1.0) that omitted the full derivation of the lubrication equation. It also presents a more thorough exploration of the model results and its sensitivity to the variation of physical variables. Copyright © 2011 by the International Society of Offshore and Polar Engineers (ISOPE).
Publication date
LanguageEnglish
AffiliationNational Research Council Canada (NRC-CNRC); Aerospace (AERO-AERO)
Peer reviewedYes
NPARC number21271601
Export citationExport as RIS
Report a correctionReport a correction
Record identifierec1400c4-5e31-4b94-8a74-5fd1cdef5c77
Record created2014-03-24
Record modified2016-05-09
Bookmark and share
  • Share this page with Facebook (Opens in a new window)
  • Share this page with Twitter (Opens in a new window)
  • Share this page with Google+ (Opens in a new window)
  • Share this page with Delicious (Opens in a new window)