[{"data":1,"prerenderedAt":273},["ShallowReactive",2],{"person-651d8b82-49f4-4a04-bc05-3a06fbcfc91e":3},{"success":4,"person":5,"request":269},true,{"lastName":6,"role":7,"name":8,"description":9,"_id":10,"designation":7,"id":7,"email":11,"url":7,"createDate":12,"filiation":13,"slugs":14,"articles":17},"Fangueiro","","Raul",{},"651d8b82-49f4-4a04-bc05-3a06fbcfc91e","rfang@det.uminho.pt","2025-12-28T12:13:58-03:00","University of Minho, Department of Textile Engineering",[15,16],"raul-fangueiro","fangueiro-raul",[18,168],{"pageRange":19,"parent":20,"data":21,"trackId":28,"type":29,"typeData":30,"metaData":130,"langs":132,"_id":135,"status":136,"updateDate":137,"contributors":138,"contributorsIds":164,"download":165,"slugs":166,"slug":167},null,"39f260d6-d61f-4dfe-b1f7-a6c315c260bd",{"secondary":22,"primary":24},{"keywords":7,"excerpt":7,"title":23},"The Biomimetic Design Applied to Sport – Review and Case Study Applied",{"keywords":25,"excerpt":26,"title":27},"\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","6pr2zsjn","article",{"startPage":31,"file":32,"references":35,"endPage":129,"track":28,"doi":7},7742,{"fullpath":33,"name":34},"https://storage.googleapis.com/memoria-ped.appspot.com/articles%2F10_congresso_brasileiro_de_pesquisa_e_desenvolvimento_em_design%2F6pr2zsjn-1766880229-7742-7760.pdf","6pr2zsjn-1766880229-7742-7760.pdf",[36,39,42,45,48,51,54,57,60,63,66,69,72,75,78,81,84,87,90,93,96,99,102,105,108,111,114,117,120,123,126],{"label":37,"id":38},"\u003Cp>RUSSELL, A. P. \u003Cstrong>ICB 2002\u003C/strong>, 42, 1154.\u003C/p>","ec04a4af-96d9-4552-b8ef-543e7a4d7672",{"id":40,"label":41},"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":43,"label":44},"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":46,"id":47},"\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":49,"label":50},"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":52,"id":53},"\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":55,"id":56},"\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":58,"id":59},"\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":61,"id":62},"\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":64,"id":65},"\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":67,"id":68},"\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":70,"label":71},"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":73,"label":74},"d0b5c5e3-e464-41b5-ac0f-2c41a2070906","\u003Cp>Baumeister, D. 2007b. Evolution of the Butterfly Life's Principles Diagram, personal communication, April.\u003C/p>",{"id":76,"label":77},"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":79,"id":80},"\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":82,"label":83},"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":85,"id":86},"\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":88,"id":89},"\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":91,"id":92},"\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":94,"id":95},"\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":97,"label":98},"8bb31f0c-f5d9-4f4e-9d6a-4a7f6601c978","\u003Cp>Hansell, M. 2005. \u003Cstrong>Animal Architecture\u003C/strong>, New York, Oxford University Press.\u003C/p>",{"label":100,"id":101},"\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":103,"id":104},"\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":106,"id":107},"\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":109,"label":110},"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":112,"id":113},"\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":115,"label":116},"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":118,"id":119},"\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":121,"label":122},"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":124,"id":125},"\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":127,"label":128},"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,{"updateDate":7,"createDate":131,"deleteDate":7},1766880229,[133,134],"primary","secondary","1a299d65-7d69-4a78-997e-a4431d2a7e96","enabled","2025-12-28T20:07:25-03:00",[139,140,153],{"url":7,"role":7,"designation":7,"name":8,"lastName":6,"email":11,"_id":10,"filiation":13},{"id":7,"url":7,"email":141,"_id":142,"createDate":143,"lastName":144,"lastmodified":145,"role":7,"path":146,"name":147,"description":148,"designation":7,"slugs":149,"filiation":152,"objectID":142},"cleciodelacerda@yahoo.com.br","16cdccb7-990b-4e11-8fc6-f66bfc6f81ec","2025-12-28T00:03:49.811Z","Lacerda",1766880229811,"people/16cdccb7-990b-4e11-8fc6-f66bfc6f81ec","Clécio",{},[150,151],"clecio-lacerda","lacerda-clecio","Universidade do Minho - PT",{"lastName":154,"filiation":155,"name":156,"designation":7,"url":7,"id":7,"path":157,"_id":158,"slugs":159,"role":7,"description":162,"email":163,"lastmodified":145,"objectID":158,"createDate":143},"Filgueras","Universidade Federal do Ceará - BR","Araguacy","people/57184cf4-3d73-4d17-91cc-840969720a58","57184cf4-3d73-4d17-91cc-840969720a58",[160,161],"araguacy-filgueras","filgueras-araguacy",{},"araguacy@ufc.br",[10,142,158],1,[167],"the-biomimetic-design-applied-to-sport-review-and-case-study-applied",{"pageRange":19,"parent":169,"updateDate":170,"data":171,"trackId":180,"type":29,"typeData":181,"metaData":212,"langs":214,"_id":215,"contributors":216,"contributorsIds":266,"createDate":222,"status":136,"download":165,"slugs":267,"slug":268},"f43247ba-af93-4a8a-898e-651ef65d9bd2","2025-12-28T12:13:59-03:00",{"secondary":172,"primary":176},{"keywords":173,"excerpt":174,"title":175},"\u003Cp>Weaving, Multiaxial structures, Technical textiles\u003C/p>","\u003Cp>Technical textiles are products for applications where technical performance is the more important specification, such as in the case of composite materials or protective clothing. Strength in several directions is of paramount importance for a wide range of applications, such as car components, aircraft fuselages, boat hulls, etc. This work reports the investigation of a multiaxial 2D woven structure able to provide specified strengths in four different directions and the development of the respective manufacturing process. The main objectives and results of this research were: 1. the design of a Multiaxial weaving system able to process warp yarns, weft yarns and bias yarns; 2. the resulting product, the multiaxial fabric structure.\u003C/p>","\u003Cp>Multiweave: New Weaving Technology of a Multiaxial Structure for Technical Applications\u003C/p>",{"keywords":177,"excerpt":178,"title":179},"\u003Cp>Tecelagem, Estruturas multiaxiais, Têxteis técnicos\u003C/p>","\u003Cp>Têxteis técnicos são produtos para aplicações onde o desempenho técnico é a especificação mais importante, como é o caso de materiais compósitos ou vestuário de protecção. Resistência em várias direcções é de importância decisiva para uma vasta gama de aplicações, tais como em componentes para automóveis, fuselagens de aviões, cascos de barcos, etc. Este trabalho descreve a investigação de uma estrutura tecida multiaxial 2D capaz de fornecer resistências especí\u003C/p>","\u003Cp>Multiweave: Nova Tecnologia para Tecelagem de uma Estrutura Multiaxial para Aplicações Técnicas\u003C/p>","tu0kxfwj",{"startPage":182,"file":183,"references":186,"endPage":211,"track":180,"doi":7},"2571",{"fullpath":184,"name":185},"https://storage.googleapis.com/memoria-ped.appspot.com/articles%2F10_congresso_brasileiro_de_pesquisa_e_desenvolvimento_em_design%2Ftu0kxfwj-1766934838-2571-2573.pdf","tu0kxfwj-1766934838-2571-2573.pdf",[187,190,193,196,199,202,205,208],{"label":188,"id":189},"[1] Published courtesy of David Cripps, Gurit, http://www.gurit.com","61d86758-ece6-40d0-ab2b-63ad17e8a46c",{"label":191,"id":192},"[2] Ogahara, Kazumasa; Tsuboi, Reijiro; Ogahara Michihiro, “Tetraxial woven fabrics and tetraxial weaving machine thereof”, \u003Cstrong>European Patent Application 0263392 A2\u003C/strong>.","81309f24-a857-4bcb-8ad3-0e04f1366963",{"label":194,"id":195},"[3] Mood, Geoffrey Ingles; Mahboubian-Jones, Malcom Gawayne, “Multiaxial Weaving” \u003Cstrong>European Patent Specification EP0571461 B1 of 1992\u003C/strong>.","338470e0-c053-4e77-8aa0-4bfbcb76ef1c",{"label":197,"id":198},"[4] Mamiilano DINI “Tetraxial fabric and weaving machine for its manufacture” \u003Cstrong>United States Patent 5351722 dated of 1994\u003C/strong>.","c958c9f3-a2fb-4a0b-aaeb-f3aa7b83c447",{"label":200,"id":201},"[5] M.Dini, DIMA Srl, Segrate/Italy, Production and end-uses of tetra-axial fabrics, \u003Cstrong>Technical Textiles\u003C/strong>, volume 41, June 1998.","0106a6d8-135d-4efa-afb1-a855a5676c40",{"id":203,"label":204},"1cb1c8ee-bb09-4a7a-9147-2b57575645f9","[6] M.Dini, Tetraxial fabric and machine for its manufacture” \u003Cstrong>European Patent WO 03/012184 A2 dated of 2003\u003C/strong>.",{"id":206,"label":207},"79097fd2-8fd4-47af-a6fb-bada6cc486ef","[7] Mário Araujo, Mário Lima, Multi-axial fabric and weaving loom for its production. \u003Cstrong>European Patent WO 2004/0059054 A1 dated of 2004\u003C/strong>.",{"label":209,"id":210},"[8] Mário Araujo, Mário Lima, Nuno Costa, MULTITEX New Weaving Concept for Multiaxial Fabric, \u003Cstrong>TECNITEX 2001, 1st Autex Conference on Technical Textiles\u003C/strong>: Designing Textiles for Technical Applications, Póvoa de Varzim, Portugal, June 27th and 28th 2001.","496ccd19-f06e-4817-98c6-ff5aa75d2ff7","2573",{"updateDate":7,"createDate":213,"deleteDate":7},1766934838,[133,134],"b7d56658-ae0d-49fd-8011-6300ae046f22",[217,230,234,244,255],{"path":218,"slugs":219,"createDate":222,"lastmodified":223,"id":7,"description":224,"_id":225,"email":226,"filiation":227,"role":7,"url":7,"name":228,"lastName":229,"objectID":225,"designation":7},"people/91982db1-902d-4d25-bde3-27cf17faf6b1",[220,221],"mario-lima","lima-mario","2025-12-28T15:13:58.749Z",1766934838749,{},"91982db1-902d-4d25-bde3-27cf17faf6b1","mlima@dem.uminho.pt","University of Minho, Department of Mechanical Engineering, Guimarães, Portugal","Mário","Lima",{"objectID":10,"lastName":6,"id":7,"designation":7,"role":7,"createDate":222,"name":8,"_id":10,"filiation":13,"path":231,"url":7,"lastmodified":223,"email":11,"slugs":232,"description":233},"people/651d8b82-49f4-4a04-bc05-3a06fbcfc91e",[15,16],{},{"objectID":235,"slugs":236,"createDate":222,"id":7,"designation":7,"_id":235,"email":7,"path":239,"lastmodified":223,"role":7,"name":240,"url":7,"description":241,"lastName":242,"filiation":243},"33dcea6a-3edb-43bb-9415-62405812b91e",[237,238],"antonio-costa","costa-antonio","people/33dcea6a-3edb-43bb-9415-62405812b91e","António",{},"Costa","P & Maia Lda, Guimarães, Portugal",{"filiation":245,"description":246,"lastmodified":223,"email":247,"_id":248,"role":7,"lastName":249,"slugs":250,"createDate":222,"id":7,"name":253,"path":254,"designation":7,"url":7,"objectID":248},"Institut für Textiltechnik der RWTH Aachen (ITA), Aachen, Germany",{},"Christian.Rosiepen@ita.rwth-aachen.de","eb52d492-a0d1-43a1-ba08-b2dcb46829e3","Rosiepen",[251,252],"christian-rosiepen","rosiepen-christian","Christian","people/eb52d492-a0d1-43a1-ba08-b2dcb46829e3",{"lastName":256,"designation":7,"role":7,"lastmodified":223,"url":7,"slugs":257,"id":7,"email":260,"name":261,"_id":262,"createDate":222,"objectID":262,"path":263,"filiation":264,"description":265},"Rocha",[258,259],"valter-rocha","rocha-valter","valter.rocha@iaiti.pt","Válter","1cf60361-bd87-4cfb-bca4-c75b11226248","people/1cf60361-bd87-4cfb-bca4-c75b11226248","IAITI, Instituto Agilus de Inovação em Tecnologia de Informação, S.A., Matosinhos, Portugal",{},[225,10,235,248,262],[268],"multiweave-new-weaving-technology-of-a-multiaxial-structure-for-technical-applications",{"target":270,"query":271},"people/get",{"id":10,"articles":272},"true",1780316110532]