[{"data":1,"prerenderedAt":135},["ShallowReactive",2],{"article:the-biomimetic-design-applied-to-sport-review-and-case-study-applied":3},{"success":4,"article":5,"request":132},true,{"parent":6,"langs":7,"_id":10,"contributors":11,"typeData":24,"data":123,"slugs":130,"slug":131},"39f260d6-d61f-4dfe-b1f7-a6c315c260bd",[8,9],"primary","secondary","1a299d65-7d69-4a78-997e-a4431d2a7e96",[12,16,20],{"lastName":13,"name":14,"_id":15},"Fangueiro","Raul","651d8b82-49f4-4a04-bc05-3a06fbcfc91e",{"lastName":17,"name":18,"_id":19},"Lacerda","Clécio","16cdccb7-990b-4e11-8fc6-f66bfc6f81ec",{"lastName":21,"name":22,"_id":23},"Filgueras","Araguacy","57184cf4-3d73-4d17-91cc-840969720a58",{"startPage":25,"references":26,"endPage":120,"track":121,"has_file":4,"doi":122},7742,[27,30,33,36,39,42,45,48,51,54,57,60,63,66,69,72,75,78,81,84,87,90,93,96,99,102,105,108,111,114,117],{"label":28,"id":29},"\u003Cp>RUSSELL, A. P. \u003Cstrong>ICB 2002\u003C/strong>, 42, 1154.\u003C/p>","ec04a4af-96d9-4552-b8ef-543e7a4d7672",{"id":31,"label":32},"9198307e-550f-4c31-b375-8524e9b2b62b","\u003Cp>SHU, L.H.; UEDA, K.; CHIU, I.; CHEONG, H. Biologically inspired design, \u003Cstrong>CIRP Annals - Manufacturing Technology\u003C/strong>, 60, 2011. 673–693\u003C/p>",{"id":34,"label":35},"42423432-947f-446b-9e67-39a81b6a5c24","\u003Cp>SPECK T, HARDER D, SPECK, O. Gradient materials and self-repair: Learning from biology technology. \u003Cstrong>VDI-Report\u003C/strong>, 2007, B4284, 1-13.\u003C/p>",{"label":37,"id":38},"\u003Cp>STEGMAIER, T.; LINKE, M. e HEINRICH, P. BIonics in textiles: flexible and translucent termal insulations for solar termal applications, \u003Cstrong>P Trans. R Soc. A\u003C/strong>, 2009, 367, 1749-1758 doi:10.1098/rsta.2009.0019\u003C/p>","631181ff-3163-4dd9-962b-26416b7199e6",{"id":40,"label":41},"c145ea40-e7d9-4282-b757-f2780351fc94","\u003Cp>STEGMAIER,T; VON ARNIM, V.; SCHERRIEBLE, A e PLACK, H. Selclean Textiles using lotus effect. In \u003Cstrong>biologicaly inspired textiles\u003C/strong>. Cambridge, Uk: Woodhead Publishing Limited, 2008b.\u003C/p>",{"label":43,"id":44},"\u003Cp>STUCCHI, S. Tenis de campo, movimento e percepção. \u003Cstrong>Espirto Santo do Pinhal\u003C/strong>, SP, v.7, n 10, jan/jun, 2007.\u003C/p>","7e6c193d-2a59-452c-b894-c09765bbeb18",{"label":46,"id":47},"\u003Cp>STURM, K. H. \u003Cstrong>Neus Tennislehrbuch\u003C/strong>. Tardução de Úrsula Zimmermann e Carlos Figueredo. Lisboa: Editorial Estampa Ltda.,1982.\u003C/p>","d7b79cb7-ad8b-4bf3-a25e-718be7806bfa",{"label":49,"id":50},"\u003Cp>TOUSSAINT, H., TRUIJENS, M., ELZINGA, M., VAN DE VEN, A., DE BEST, H., SNABEL, B., DE GROOT, G. Effect of a Fastskin bodysuit on drag during front crawl swimming. \u003Cstrong>Int. Soc. Biomech. Sports 1\u003C/strong>, 2002, 1-10.\u003C/p>","bb6be536-5a45-42cc-b498-004a82584455",{"label":52,"id":53},"\u003Cp>VINCI, L.D. \u003Cstrong>Da Vinci por ele mesmo\u003C/strong>/ tradutor Marcos Malvezi.São Paulo: Madras, 2004.\u003C/p>","8438c4c1-32da-4a65-ad86-61dd4c03668b",{"label":55,"id":56},"\u003Cp>WAHL, D. C. Bionics vs. biomimicry: from control of nature to sustainable participation in nature. \u003Cstrong>WIT Transactions on Ecology and the Environment\u003C/strong>, 87, 2006.\u003C/p>","3863ebbf-9c45-458e-8a6e-44175342e7f2",{"label":58,"id":59},"\u003Cp>Applegate, S. 1967. A survey of shark hard parts. In \u003Cstrong>Sharks, Skates and Rays\u003C/strong> (ed. W. C. Hamlett) pp. 37-67. Baltimore, MD: Johns Hopkins University Press.\u003C/p>","503e82e3-d890-4f5b-b79f-a5e9147bb427",{"id":61,"label":62},"96b3ce91-ca3f-4b89-b71c-263e8cde909b","\u003Cp>Bar-Cohen, Y. 2006. Biomimetics: using nature as an inspiring model for human innovation \u003Cstrong>International Conference on Recent Advances in Engineering Mechanics (RAEM 2006)\u003C/strong>, Fullerton, CA, January, 12.\u003C/p>",{"id":64,"label":65},"d0b5c5e3-e464-41b5-ac0f-2c41a2070906","\u003Cp>Baumeister, D. 2007b. Evolution of the Butterfly Life's Principles Diagram, personal communication, April.\u003C/p>",{"id":67,"label":68},"98ca31d6-a14b-45dc-b6a5-c9ad72cb2693","\u003Cp>Benjanuvatra, N., Dawson, G. and Blanksby, B. 2002. Comparison of buoyancy, passive and net active drag forces between Fastskin TM and standard swimsuits. \u003Cstrong>J. Sci. Med. Sport\u003C/strong> 5, 115-123.\u003C/p>",{"label":70,"id":71},"\u003Cp>Castro, J. I. 2011. \u003Cstrong>The Sharks of North America\u003C/strong>. Oxford: Oxford University Press.\u003C/p>","f3718d9c-1ae4-4dbe-bed3-a3fbef832105",{"id":73,"label":74},"81480b73-bc18-476b-af84-e693e09da028","\u003Cp>Chataignier, G. 2006. \u003Cstrong>Fio a Fio\u003C/strong>: tecidos, moda e linguagem; São Paulo, editora :Estação das Letras\u003C/p>",{"label":76,"id":77},"\u003Cp>Detancio, F.B, Teixeira,F.G, Silva,.K.T.2010. A biomomimética como método criativo para o projeto do produto; PGdesign,UFRGS: \u003Cstrong>Design & tecnologia\u003C/strong> 02,106.\u003C/p>","febc3b4d-4944-4bad-abcb-7636cb05ec76",{"label":79,"id":80},"\u003Cp>F.V. Vincent Julian, Olga A.Bogatyreva, Nikolaj R, Adrian Bowyer and Anja-Karina pahl. 2006. Biomimetics: Its Pratice and theory. \u003Cstrong>Jornal The Royal Society Interface\u003C/strong>, vol 3.\u003C/p>","f1630cba-c3e8-4a86-98f5-d37ad8caad51",{"label":82,"id":83},"\u003Cp>Harkness, J.M. 2002. The lifetime of connections - Otto Herbert Schmitt, 1913 -1998. \u003Cstrong>Physics in Perspective\u003C/strong>. Vol 4, pp.456-490.\u003C/p>","ced48a92-41ae-4e5c-8785-f9578c131550",{"label":85,"id":86},"\u003Cp>Menestral, G. D. 1952. Velvet Type Fabric and Method of Producing Save Patente n.2,717, 437.\u003C/p>","9896798b-d6ad-43c5-8dae-8a00395c2eaf",{"id":88,"label":89},"8bb31f0c-f5d9-4f4e-9d6a-4a7f6601c978","\u003Cp>Hansell, M. 2005. \u003Cstrong>Animal Architecture\u003C/strong>, New York, Oxford University Press.\u003C/p>",{"label":91,"id":92},"\u003Cp>Harrison, A. e JONG, D.O. 2005. Explor- ing the use of multiple analogical models when teaching and learning chemical equilibrium, \u003Cstrong>Journal of Research in Science Teaching\u003C/strong> 42(10), 1135–1159.\u003C/p>","59a02f6d-3a3c-4483-8872-0925d271a6ad",{"label":94,"id":95},"\u003Cp>Kluber,H. 1991. Functional of spiral grain in trees. \u003Cstrong>Tree\u003C/strong> 5: 125-135\u003C/p>","4ea5c40a-15d0-4f24-b098-79eae2a36719",{"label":97,"id":98},"\u003Cp>Lang, A. W., Motta, P., Hidalgo, P. and Westcott, M. 2008. Bristled shark skin: a microgeometry for boundary layer control? \u003Cstrong>Bioinsp. Biomimet.\u003C/strong> 3, 046005.\u003C/p>","569eb21e-9df8-43fa-aa8b-02a4cd43baeb",{"id":100,"label":101},"7fc93e4b-18e9-4c76-820e-312ff882f15f","\u003Cp>L.H.Shu, K. Ueda, I Chiu, H.Cheong , \u003Cstrong>CIRP Annals- Manufacturing Technology\u003C/strong>, vol 60,( 2011) pag 673-693.\u003C/p>",{"label":103,"id":104},"\u003Cp>Oeffner, J. and Lauder, G. V. 2012. The hydrodynamic function of shark skin and two biomimetic applications. \u003Cstrong>J. Exp. Biol.\u003C/strong> 215, 785–795\u003C/p>","6481fdfd-2214-4383-9165-c834eca8b160",{"id":106,"label":107},"311b4ca9-ebc1-4ece-b626-a0a3bbdde6cd","\u003Cp>Speck T, Harder D, Speck O. 2007. Gradient materials and self-repair: Learning from biology technology. \u003Cstrong>VDI-Report\u003C/strong>, B4284, 1-13.\u003C/p>",{"label":109,"id":110},"\u003Cp>L.H. Shu, K. Ueda, I. Chiu, H. Cheong. 2011. Biologically inspired design, \u003Cstrong>CIRP Annals - Manufacturing Technology\u003C/strong> 60 ,673–693\u003C/p>","b05e4ca4-95ed-479a-b48a-a20a82961d35",{"id":112,"label":113},"778449a8-59d6-42b2-9b58-c9cff522c38a","\u003Cp>Toussaint, H., Truijens, M., Elzinga, M., Van De Ven, A., De Best, H., Snabel, B.and De Groot, G. 2002. Effect of a Fastskin bodysuit on drag during front crawl swimming. \u003Cstrong>Int. Soc. Biomech. Sports\u003C/strong> 1, 1-10.\u003C/p>",{"label":115,"id":116},"\u003Cp>Vinci, L.D. 2004. \u003Cstrong>Da Vinci por ele mesmo\u003C/strong>/ tradutor Marcos Malvezi.São Paulo: Madras.\u003C/p>","b64de7a7-a9b8-4c64-b8f3-9a937feea0b2",{"id":118,"label":119},"b22ff11d-cb02-4749-98d0-44c315296d8b","\u003Cp>Wahl, D. C. 2006. Bionics vs. biomimicry: from control of nature to sustainable participation in nature. \u003Cstrong>WIT Transactions on Ecology and the Environment\u003C/strong>, 87.\u003C/p>",7760,"6pr2zsjn","",{"primary":124,"secondary":128},{"keywords":125,"excerpt":126,"title":127},"\u003Cp>Mimetismo, Biomimetica, Esportes\u003C/p>","O desporto com suas variações é uma forma de entretenimento para o ser humano desde sempre. Alguns esportes se aproximam de modelos biológicos e que podem estar interligados de forma mimética. O mimetismo tem sido ferramenta aplicada no desenvolvimento de produtos destinados ao desporto, para a melhoria na performance, seja no aumento da velocidade, resistência, força, conforto. Esse trabalho mostra revisão bibliográfica e analogias de projetos ou produtos biomiméticos relacionados com esportes, necessárias para o desenvolvimento de produtos para a pratica de esportes. É possível notar aproximações de produtos presentes no mercado, assim como estes foram projetados pelo design biomimético.","O Design Biomimético Aplicado ao Desporto - Revisão e Estudo de Casos Aplicados",{"keywords":122,"excerpt":122,"title":129},"The Biomimetic Design Applied to Sport – Review and Case Study Applied",[131],"the-biomimetic-design-applied-to-sport-review-and-case-study-applied",{"target":133,"query":134},"articles/get",{"slug":131},1780316033785]