This review article reports the recent advances in the study, design and production of ski-boots for alpine skiing. An overview of the different designs and the materials used in ski-boot construction is provided giving particular emphasis to the effect of these parameters on the final performances and on the prevention of injuries. The use of specific materials for ski-boots dedicated to different disciplines (race skiing, mogul skiing, ski-mountaineering etc.) has been correlated with the chemical and physical properties of the polymeric materials employed. A review of the scientific literature and the most interesting patents is also presented, correlating the results reported with the performances and industrial production of ski-boots. Suggestions for new studies and the use of advanced materials are also provided. A final section dedicated to the standards involved in ski-boot design completes this review article.
References
[1]
Glenne, B.; DeRocco, A.; Vandergrift, J. The modern alpine skiing. Cold Reg. Sci. Technol. 1997, 26, 35–38, doi:10.1016/S0165-232X(97)00006-2.
[2]
Lund, M. A short history of alpine skiing: From telemark to today. Ski. Heritage. Journal. 1996, 6–7.
[3]
Lund, M.; Masia, S. The boot that bob built. Ski Buy. Guide 1986, 193–195.
[4]
Lund, M. The empire that exploded: Bob Lange and the plastic boot. Ski. Her. J. 2001, 13–23.
[5]
Lert, W. The finish line. Ski. Her. J. 1996, 40–45.
[6]
Masia, S. The short happy eras of the american ski boot. Ski. Her. J. 2002, 35–38.
[7]
Masia, S. The selling of skiing. Ski. Her. J. 2005, 36–40.
[8]
Fry, J. The Story of Modern Skiing; University Press of New England: Ishpeming, MI, USA, 2006; pp. 81–86.
[9]
Paris, J. Rear entry ski boot. U. S. Pat. 5,065,533, 1991.
[10]
Masia, S. Rear entry boots a life cut short. Ski. Her. J. 2007, 40–43.
[11]
Binet, M.; Delouche, G.; Montillet, B.; Thomas, M. Measurements of the Forces Needed to Take off Classic and Rear Entry Ski Boots. In Skiing Trauma and Safety, 7th International Symposium; Johnson, R.J., Mote, C.D., Binet, M., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1989; pp. 153–159.
[12]
Masia, S. The rise and fall of the knee-high boot. Ski. Her. J. 2003, 16–17.
[13]
Sutherland, A.; Holmes, J. Differing injury patterns in snowboarding and alpine skiing. Injury 1996, 27, 423–425, doi:10.1016/0020-1383(96)00026-5.
[14]
Deibert, M.C.; Aronsson, D.D.; Johnson, R.J.; Ettlinger, C.F.; Shealy, J.E. Skiing injuries in children, adolescents, and adults. J. Bone Jt. Surg. 1998, 80, 25–32, doi:10.1302/0301-620X.80B1.8136.
[15]
Ettlinger, C.; Johnson, R.; Shealy, J. A method to help reduce the risk of serious knee sprains incurred in Alpine Skiing. Am. J. Sports Med. 1995, 23, 531–537, doi:10.1177/036354659502300503.
[16]
Gerritsen, K.G.M.; Nachbauer, W.; van den Bogert, A.J. Computer simulation of landing movement in downhill skiing: Anterior cruciate ligament injuries. J. Biomech. 1996, 29, 845–854, doi:10.1016/0021-9290(95)00167-0.
[17]
Hunter, R. Skiing injuries. Am. J. Sports Med. 1999, 27, 381–389, doi:10.2165/00007256-199927060-00003.
Maes, R.; Andrianne, Y.; Rémy, P. Increasing incidence of knee ligament injuries in alpine skiing: Epidemiology and etiopathogenetic hypotheses. Revue Medicale De Bruxelles 2002, 23, 87–91.
[20]
Schaff, P.; Hauser, W.; Schattner, R.; Kulot, M. Pressure measurements inside shoes and applications in alpine skiing. J. Biomech. 1987, 20, 817–822.
[21]
Schaff, P.S.; Hauser, W. Influence of Ski Boot Construction on Knee Load—a Biomechanical Investigation on Safety and Performance Aspects of Ski Boots. In Skiing Trauma and Safety, 9th International Symposium; Johnson, R.J., Mote, C.D., Zelcer, J., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1993; pp. 75–88.
[22]
Corazza, S.; Cobelli, C. An innovative ski-boot: Design, numerical simulation and testing. J. Sports Sci. Med. 2005, 4, 229–238.
[23]
Petrone, N.; Marcolin, G.; Centofante, E.; Atzori, B. Analysis of the structural behavior of an innovative reinforced ski boot. Procedia Eng. 2010, 2, 2599–2604, doi:10.1016/j.proeng.2010.04.038.
[24]
Meddoff, H.; Pierce, J.; Pope, M.; Johnson, R.J. On-Slope Testing of an Instrumented Alpine Ski Boot. In Skiing Trauma and Safety, 5th International Symposium; Johnson, R.J., Mote, C.D., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1985; pp. 165–172.
[25]
Schattner, R.; Asang, E.; Hauser, W.; Velho, F. A Device for Measuring the Influence of Ski Boot Design on the Pressure Distribution in the Lower Leg. In Skiing Trauma and Safety, 5th International Symposium; Johnson, R.J., Mote, C.D., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1985; pp. 182–192.
[26]
Ford, K.; Goodwin, D. Variable Influence in on-Snow Ski Boot Pressure Measurements. In Skiing Trauma and Safety, 13th International Symposium; Johnson, R.J., Zucco, P., Shealy, J.E., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 2000; pp. 50–68.
[27]
Nakazato, K.; Scheiber, P.; Muller, E. A comparison of ground reaction forces determined by portable force-plate and pressure-insole systems in alpine skiing. J. Sports Sci. Med. 2011, 10, 754–762.
[28]
Stricker, G.; Scheiber, P.; Lindenhofer, E.; Muller, E. Determination of forces in alpine skiing and snowboarding: Validation of a mobile data acquisition system. Eur. J. Sport Sci. 2010, 10, 31–41, doi:10.1080/17461390903108141.
[29]
Schaff, P.; Schattner, R.; Kulot, M.; Hauser, W. Influences on the Foot Pressure Pattern in Ski Boots. In Skiing Trauma and Safety, 7th International Symposium; Johnson, R.J., Mote, C.D., Binet, M., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1989; pp. 137–145.
[30]
Kurpiers, N.; Kersting, U.G.; McAlpine, P. The Effect of a Ski Boot Intervention on Knee Joint Loading in Mogul Skiing. In Science and Skiing V; Mueller, E., Lindinger, S., Stoeggl, T., Eds.; Meyer and Meyer Sports: Maidenhead, UK, 2012; pp. 235–245.
Kurpiers, N.; Boehm, H.; Kiefmann, A.; McAlpine, P.; Kersting, U.G. Biomechanical Assessment of a Modified Ski Boot for Mogul Skiing. In Proceedings of XVIII of International Society for Skiing Safety Congress, Garmisch-Partenkirchen, Germany, 26, April 2009; pp. 48–52.
[33]
Hauser, W.; Hasang, E. High IAS. Standards for Safety and Quality Ski Bindings. In Skiing Trauma and Safety, 4th International Symposium; TUV-Edition: Munich, Germany, 1982; pp. 74–78.
[34]
Karpf, P.M.; Mang, W.; Hoerterer, H. Biomechanical Investigation of the Distal Tibia Fracture and its Relation to the Length of Ski Boots. In Skiing Trauma and Safety, 4th International Symposium; TUV-Edition: Munich, Germany, 1982; pp. 93–97.
[35]
Shealy, J.E.; Ettlinger, C.F. The in-boot Fracture. In Skiing Trauma and Safety, 4th International Symposium; Mote, C.D., Johnson, R.J., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1987; pp. 113–126.
[36]
Lyle, C.; Hubbard, M. Optimal Ski Boot Stiffness for the Prevention of Boot Top Fracture. In Skiing Trauma and Safety, 5th International Symposium; Johnson, R.J., Mote, C.D., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1985; pp. 173–181.
[37]
Hoflin, F.; van der Linen, W. Boot top fractures. Orthop. Clin. North Am. 1976, 7, 205–213.
[38]
Senner, V. Biomechanische Methoden am Beispiel der Sportger?teentwicklung. Ph.D. Thesis, Technische Universit?t München, Germany, 2001.
[39]
Gerritsen, K.G.M.; Nachbauer, W.; van den Bogert, A.J. Computer Simulation as a Tool to Investigate ACL Injuries during Landing Movements in Dowhnhill Skiing. In Skiing Trauma and Safety, 11th International Symposium; Johnson, R.J., Mote, C.D., Ekeland, A., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1997; pp. 133–151.
[40]
B?hm, H.; Senner, V. The effect of skiboot settings on tibio-femoral abduction and rotation during standing and simulated skiing. J. Biomech. 2008, 41, 498–505, doi:10.1016/j.jbiomech.2007.10.019.
[41]
Reichel, M.; Haumer, A.; Schretter, H.; Sabo, A. Development of a Measurements-Prosthesys for a Ski Boot Test-Bench. In The Engineering of Sport 7; Estivalet, M., Brisson, P., Eds.; Springer: Berlin, Germany, 2008; Volume 1, pp. 255–261.
[42]
Senner, V.; Schaff, P.; Hauser, W. A New Artificial Leg for Ski Boot Testing. In Skiing Trauma and Safety, 8th International Symposium; Mote, C.D., Johnson, R.J., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1991; pp. 176–204.
[43]
Bodem, F.; Casel, J.; Menke, W.; Volkert, R. A New Lower Leg Prosthesis with Simulation Device for the Achilles Tendon. In Skiing Trauma and Safety, 7th International Symposium; Johnson, R.J., Mote, C.D., Binet, M., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1989; pp. 153–159.
[44]
Walkhoff, K.; Bauman, C.W. Alpine Ski Boot Hysteresis Characteristics Interpreted for Skier Target Groups within the Current Standards. In Skiing Trauma and Safety, 7th International Symposium; Mote, C.D., Johnson, R.J., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1987; pp. 127–144.
[45]
Bonjour, F.; Delouche, G. Problems Encountered in Flex Measurements on Alpine Ski Boots. In Skiing Trauma and Safety, 7th International Symposium; Johnson, R.J., Mote, C.D., Binet, M., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1989; pp. 167–180.
[46]
Nordica. website. Available online: http://www.nordicausa.com (accessed on 20 July 2013).
[47]
Alpine Ski Boots—Requirements and Test MethodsISO 5355.
[48]
Touring Ski Boots for Adults—Interface with Touring Ski Bindings?Requirements and test methodsISO 9593.
[49]
Material progress: TPU ski boots. Adv. Mater. Proc. 2005, 163, 14–15.
[50]
Salomon website. Available online: http://www.salomon.com (accessed on 20 July 2013).
[51]
Mathers, R.T.; Meier, M.A.R. Green Polymerization Methods; Wiley: New York, NY, USA, 2011.
[52]
Petrone, N.; Marcolin, G. Biomechanical evaluation of impact loads during ski boot kicks against different obstacles. J. Biomech. 2007, 40, doi:10.1016/S0021-9290(07)70396-2.
[53]
Petrone, N.; Marcolin, G. Impact Behaviour of Ski-Boots Against Different Obstacles. In Proceedings of 7th International Conference on the Engineering of Sport, Biarritz, Spain, 6 June 2008.
[54]
BASF website. Available online: http://www.BASF.com (accessed on 20 July 2013).
[55]
ApiPlastic website. Available online: http://www.apiplastic.com (accessed on 20 July 2013).
[56]
EMSGrivory. Available online: http://www.emsgrivory.com (accessed on 20 July 2013).
[57]
Pebax website. Available online: http://www.pebax.com (accessed on 20 July 2013).
[58]
Parisotto, D.; Marcolin, G.; Marcolin, R.; Pellizzer, M. Investigation of the mechanical performances of material and structural configuration of telemark ski boots. Footwear Sci. 2012, 1–7.
[59]
Colonna, M.; Nicotra, M.; Moncalero, M. Viscoelastic Properties of Thermoplastic Materials Used for Ski Boots. In Proceedings of ISEA Sports Engineering Conference, Lowell, MA, USA, 20 July 2012.
[60]
Fischer, C.; Fauve, M.; Combaz, E.; Bourban, P.E.; Michaud, V.; Plummer, C.J.G.; Rhyner, H.; Manson, J.A.E. Dynamic Properties of Materials for Alpine Skis. In The Engineering of Sport 6; Moritz, E., Haake, S., Eds.; Springer: Berlin, Germany, 2006; Volume 1, pp. 263–268.
[61]
Ferry, J.D. Viscoelastic Properties of Polymers; Wiley: New York, NY, USA, 1980.
[62]
Dalbello webiste. Available online: http://dalbello.it/en/technology (accessed on 20 July 2013).
[63]
Scarpa website. Available online: http://www.scarpa.net (accessed on 20 July 2013).
[64]
Wypych, G. Handbook of UV Degradation and Stabilization, 1st ed. ed.; ChemTech Publishing: Toronto, ON, Canada, 2010.
Berti, C.; Colonna, M.; Fiorini, M.; Lorenzetti, C.; Sisti, L. Chemical modification of bisphenol a polycarbonate by reactive blending with cyclic anhydrides. Polym. Bull. 2003, 51, 111–118, doi:10.1007/s00289-003-0202-8.
[72]
Plake, G. Sports Footwear. U.S. Patent 20110067266, 23 September 2011.
[73]
Clement, J.P.; Dalvy, O. Internal liner for a boot. U.S. Pat. 5,924,218, 1999.
[74]
Fink, J.K. Handbook of Engineering and Specialty Thermoplastics Polyolefins and Styrenics; Wiley-Scrivener: Beverly, MA, USA, 2010. Chapter 7.
[75]
Fauland, G.; Hofer, P.; Nachbauer, W.; Bechtold, T. Moisture management properties of ski-boot liner materials. Text. Res. J. 2011, 2, 99–107.
[76]
Moncalero, M.; Colonna, M.; Pezzoli, A.; Nicotra, M. Pilot Study for the Evaluation of Thermal Properties and Moisture Management on skI Boots. In Proceedings of icSPORTS conference, Vilamoura, Portugal, 19 September 2013.
[77]
Zucco, P. Ski Boot Thermography and its Relevance. In Skiing Trauma and Safety, 8th International Symposium; Mote, C.D., Johnson, R.J., Eds.; American Society for Testing and Materials: Philadelphia, PA, USA, 1991; pp. 205–211.
