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International Symposium on Slip Resistance : The Interface of Man, Footwear, and Walking SurfacesJournal of testing and evaluation. 1996, Vol 24, Num 6, pp 352-385, issn 0090-3973Conference Proceedings
Novel polyurethane systems for footwear as replacement for EVA and rubberSTILLING, H; LIN, N. W.Cellular polymers. 1990, Vol 9, Num 6, pp 446-461, issn 0262-4893, 16 p.Article
Novel polyurethane systems for footweater as replacement for EVA and rubberSTILLING, H; LIN, N. W.Journal of cellular plastics. 1990, Vol 26, Num 6, pp 475-489, issn 0021-955X, 15 p.Conference Paper
Using ASTM slip test methodsKOHR, R. L.American Ceramic Society bulletin. 1995, Vol 74, Num 6, pp 75-78, issn 0002-7812Conference Paper
Zur Reinigungsfreundlichkeit rutschhemmender Fliesen = Cleanability of sliding resistant tilesBOÊHNER, B; WILDBRETT, G.Keramische Zeitschrift. 1991, Vol 43, Num 5, pp 307-311, issn 0023-0561, 5 p.Article
Entwicklung eines normgerechten Prüfverfahrens zur Ermittlung der fleitscherheit von Schuhsohlen = Développement d'une méthode normalisable pour déterminer la résistance au glissement de semelles de chaussures = Development of a standardizable method to determine slip resistance of protective shoe solesSKIBA, R; KUSCHEFSKI, A; CZIUK, N et al.Kautschuk und Gummi, Kunststoffe. 1988, Vol 41, Num 5, pp 471-474, issn 0022-9520Article
International symposium on slip resistance : The interface of man, footwear, and walking surfacesSACHER, A; OWENS, J. M.Journal of testing and evaluation. 1996, Vol 24, Num 6, issn 0090-3973, p. 352Conference Paper
Effects of slip testing parameters on measured coefficient of frictionBESCHORNER, Kurt E; REDFERN, Mark S; PORTER, William L et al.Applied Ergonomics. 2007, Vol 38, Num 6, pp 773-780, issn 0003-6870, 8 p.Article
Determining appropriate slip resistance characteristicsBOWMAN, R; BOHLKEN, S.Key engineering materials. 1997, pp 2100-2103, issn 1013-9826, isbn 0-87849-761-7, 3VolConference Paper
Required coefficient of friction versus walking speed : Potential influences of footwear and walkway surfacesFENDLEY, A. E; MARPET, M. I.Journal of testing and evaluation. 1996, Vol 24, Num 6, pp 359-367, issn 0090-3973Conference Paper
The superior slip-resistance of footwear soling compound T66/103MANNING, D. P; JONES, C.Safety science. 1994, Vol 18, Num 1, pp 45-60, issn 0925-7535Article
An investigation of floor surface profile characteristics that will reduce the incidence of slips and fallsLLOYD, D. G; STEVENSON, M. G.Transactions of the Institution of Engineers, Australia. Mechanical engineering. 1992, Vol 17, Num 2, pp 99-105, issn 0727-7369Article
Interaction of multiple brushes on a slip ringBURTON, R. A; GAINES BURTON, R.IEEE transactions on components, hybrids, and manufacturing technology. 1992, Vol 15, Num 3, pp 328-331, issn 0148-6411Conference Paper
A technique for the determination of center of gravity and rolling resistance for tilt-seat wheelchairsLEMAIRE, E. D; LAMONTAGNE, M; BARCLAY, H. W et al.Journal of rehabilitation research and development. 1991, Vol 28, Num 3, pp 51-58, issn 0748-7711Article
Zum Erkenntniswert von Reibzahlmessungen durch Begehen einer neigbaren Ebene = Valeur des résultats de mesures de coefficient de frottement avec un plan incliné = Valuation of results by measuring the coefficient of fraction with the aid of an inclined planeSKIBA, R; WIEDER, R; CZIUK, N et al.Kautschuk und Gummi, Kunststoffe. 1986, Vol 39, Num 10, pp 907-911, issn 0022-9520Article
The Hughes gauge: a new method for measuring coefficient of frictionHUGHES, R. C; JAMES, D. I.Polymer testing. 2002, Vol 21, Num 1, pp 39-42, issn 0142-9418Article
The measurement of slipperinessCOURTNEY, Theodore K; CHANG, Wen-Ruey; GRÖNQVIST, Raoul et al.Ergonomics. 2001, Vol 44, Num 13, issn 0014-0139, 167 p.Serial Issue
The hydrodynamic model of sliding inclined planes and its two limits : Coulomb/Amonton friction and fluid slug rigid body flowBETZALEL AVITZUR.Tribology transactions. 1993, Vol 36, Num 2, pp 249-257, issn 1040-2004Article
Kinematic methods for quantifying loss of balance while negotiating a curved path on a slippery surfaceWANG, B; BHATTACHARYA, A; BAGCHEE, A et al.Journal of testing and evaluation. 1997, Vol 25, Num 1, pp 135-142, issn 0090-3973Conference Paper
The use of the tortus and the pendulum with the 4S rubber for the assessment of slip resistance in the laboratory and the fieldDRAVITZKI, V. K; POTTER, S. M.Journal of testing and evaluation. 1997, Vol 25, Num 1, pp 127-134, issn 0090-3973Conference Paper
High-resolution force plate analysis of utilized slip resistance in human walkingBUCZEK, F. L; BANKS, S. A.Journal of testing and evaluation. 1996, Vol 24, Num 6, pp 353-358, issn 0090-3973Conference Paper
Exigences pour une norme de mesure de la glissance des sols. Etude documentaire et discussion = Requirements for a floor slip-resistance measurement standard. Literature review and discussionTISSERAND, M; LECLERCQ, S; SAULNIER, H et al.Les Cahiers de notes documentaires - Institut national de sécurité. 1995, Num 159, pp 191-199, issn 0007-9952Article
Rutschhemmende Bodenläge : Anforderungen und Auswahlhilfen = Adhérence des revêtements de sol: exigences et critères de choix = Adherence qualities for floor coverings: requirements and choice criteriaJUNG, K.Bautenschutz + Bausanierung. 1992, Vol 15, Num 3, pp 28-31, issn 0170-9267Article
Dependence of wet skid resistance upon the entanglement density and chain mobility according to the Rouse theory of viscoelasticityRAHALKAR, R. R.Rubber chemistry and technology. 1989, Vol 62, Num 2, pp 246-271, issn 0035-9475Article
Effect of hydrogen on the slip resistance of tungsten single crystalsYAO, W. Z; WANG, P; MANHARD, A et al.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 2013, Vol 559, pp 467-473, issn 0921-5093, 7 p.Article