[{"data":1,"prerenderedAt":122},["ShallowReactive",2],{"person-7e7f699e-a97b-4ba4-973d-c3a57d9bad71":3},{"success":4,"person":5,"request":118},true,{"lastName":6,"role":7,"name":8,"description":9,"_id":10,"designation":11,"id":12,"email":13,"url":14,"createDate":15,"filiation":14,"slugs":16,"articles":19},"Gil Coury","author","Helenice Jane Cote","Doutora, Departamento de Fisioterapia, CCBS/UFSCar, São Carlos.","7e7f699e-a97b-4ba4-973d-c3a57d9bad71","Dra",null,"helenice@power.ufscar.br","","2025-02-10T06:55:32-03:00",[17,18],"helenice_jane_cote_gil_coury","gil_coury_helenice_jane_cote",[20],{"parent":21,"metaData":22,"data":24,"langs":33,"_id":36,"contributors":37,"contributorsIds":52,"type":53,"typeData":54,"createDate":113,"status":114,"download":115,"slugs":116,"slug":117},"6812ce42-f5f2-4456-9064-686c9b2b8f80",{"updateDate":14,"createDate":23,"deleteDate":14},1739181305,{"secondary":25,"primary":29},{"keywords":26,"excerpt":27,"title":28},"grip, ergonomic design, hand tools","Usability of hand grip requires safety, efficiency and comfort during manual handlings. Contact forces and types of prehension are important variable for the design project. In this study the Force Sensing Resistors (FSRs) were used to evaluate the prehension forces in two different types of hand grip. Results indicated that FSRs revealed to be an useful methodological tool for ergonomic design.","The use of FSR in evaluation of hand tools grip: a methodological alternative for grip design ergonomic",{"keywords":30,"excerpt":31,"title":32},"preensão, design ergonômico, ferramentas manuais","A usabilidade de empunhaduras implica em segurança, eficiência e conforto durante atividades manuais. Forças de contato e o modo preênsil são variáveis importantes no projeto. Foram empregados sensores FSRs para analise do modo preênsil em dois tipos de empunhadura. Os resultados apontam esse recurso, como alternativa metodológica útil para o design ergonômico.","O uso de FSR na avaliação de preensão de instrumentos manuais: uma alternativa metodológica para o design ergonômico de empunhaduras",[34,35],"primary","secondary","d7024df8-e3e4-4298-b856-44b23a83e42f",[38,50],{"id":14,"name":39,"lastName":40,"email":14,"designation":14,"description":41,"role":14,"_id":42,"createDate":43,"filiation":44,"slugs":45,"url":14,"path":48,"lastmodified":49,"objectID":42},"Luís Carlos","Paschoarelli",{},"d748a4d2-a64d-495d-b0fd-56fd34e23d23","2023-02-14T08:12:51-03:00","UNESP",[46,47],"luis_carlos_paschoarelli","paschoarelli_luis_carlos","people/d748a4d2-a64d-495d-b0fd-56fd34e23d23",1676373072054,{"_id":10,"lastName":6,"role":7,"name":8,"description":9,"designation":11,"id":12,"email":13,"url":14,"createDate":15,"filiation":14,"slugs":51},[17,18],[42,10],"article",{"startPage":55,"file":56,"references":59,"endPage":111,"track":112,"doi":14},1000,{"fullpath":57,"name":58},"https://storage.googleapis.com/memoria-ped.appspot.com/articles%2F6_pd_design_2004%2F11-15-062.pdf","11-15-062.pdf",[60,63,66,69,72,75,78,81,84,87,90,93,96,99,102,105,108],{"id":61,"label":62},"f6a6c578-2650-4a1d-9104-2d92d5bb2b3c","BISHU, R.R., WANG, W. & CHIN, A. Force distribution at the container hand/handle interface using force-sensing resitors. \u003Cstrong>International Journal of Industrial Ergonomics\u003C/strong>. 11(__): 225-231. 1993.",{"id":64,"label":65},"1ce0c649-fa5c-495c-be43-963a5c86c0e1","CACHA, C. A. \u003Cstrong>Ergonomics and safety in hand tool design\u003C/strong>. New York: Lewis Publishers, 1999, 117p.",{"id":67,"label":68},"85d14899-7bb9-4b04-ad1b-82d136011bb1","FELLOWS, G.L. & FREIVALDS, A. Ergonomics evaluation of a foam rubber grip for tool handles. \u003Cstrong>Applied Ergonomics\u003C/strong>, 22 (04): 225-230. 1991.",{"id":70,"label":71},"0fe709ec-d9b5-4e4a-ad44-b05fc9c991ac","FRANSSON-HALL, C. & KILBOM, Å. Sensitivity of the hand to surface pressure. \u003Cstrong>Applied Ergonomics\u003C/strong>, 24 (03): 181-189. 1993.",{"id":73,"label":74},"8493005a-4a88-44e7-add2-18bec8355434","FRASER, T. M. \u003Cstrong>Ergonomic principles in the design of hand tools\u003C/strong>. Occupational Safety and Health Series, N. 44. Geneva: International Labour Office, 1980.",{"id":76,"label":77},"3d62102f-2796-4810-a1d2-f88ecb833e19","HALL, C. External pressure at the hand during object handling and work with tools. \u003Cstrong>International Journal of Industrial Ergonomics\u003C/strong>, 20(03): 191-206. 1997.",{"id":79,"label":80},"c1dc2433-e991-4bca-9892-3eb8439df6c0","INTERLINK ELECTRONICS. \u003Cstrong>FSR Integration Guide and Evaluation Parts Catalog\u003C/strong>. Camarillo (USA), 20 p, (Version 1.0). s.d.",{"id":82,"label":83},"4fead276-c165-4a5e-89c3-a667ddc256d6","JENSEN, T.R., RADWIN, R.G. & WEBSTER, J.G. A conductive polymer sensor for measuring external finger forces. \u003Cstrong>Journal of Biomechanics\u003C/strong>, 24 (___): 851-858. 1991.",{"id":85,"label":86},"8a022974-e894-4d5a-94a1-b981d6d0639a","LEWIS, W. G. & NARAYAN, C. V. Design and sizing of ergonomic handles for hand tools. \u003Cstrong>Applied Ergonomics\u003C/strong>, 24 (05): 351-356, 1993.",{"id":88,"label":89},"b55d2d57-9acf-4428-b860-bfe47d34fff4","NAPIER, J., The prehensile movements of the human hand. \u003Cstrong>Journal of Bone and Joint Surgery\u003C/strong>. 38B (04): 902-913, 1956.",{"id":91,"label":92},"d93f7b5d-fe14-4fd9-bfe8-4276437a0024","MURALIDHAR, A.; BISHU, R. R. & HALLBECK, M. S. The development and evaluation of an ergonomic glove. \u003Cstrong>Applied Ergonomics\u003C/strong>. 30 (06): 555-563, 1999.",{"id":94,"label":95},"d11559e0-540e-4c64-9679-220feba4bdec","PASCHOARELLI, L. C. & GIL COURY, H. J. C. Calibração de sensores FSRs: definindo a equação a partir da regressão polinomial. In: \u003Cstrong>Anais X Congresso Brasileiro de Biomecânica\u003C/strong>. Belo Horizonte: Sociedade Brasileira de Biomecânica. 02: 86-89, 2003.",{"id":97,"label":98},"79c35897-89cf-4a4f-890b-359a17101561","RADWIN, R. and OH, S. External finger forces in submaximal five-finger static pinch prehension. \u003Cstrong>Ergonomics\u003C/strong>, 35 ( ): 275-288. 1992.",{"id":100,"label":101},"a7673410-fe2e-42d3-a6d9-940c62d0dc0c","PUTNAM, W. & KNAPP, B. \u003Cstrong>Input/Data Acquisition System Design for Human Computer Interfacing\u003C/strong>. Oct;1996. 29p. In: http://ccrma-www.stanford.edu/ccrma/courses/252/sensors/node8.html#fsrforce_log",{"id":103,"label":104},"2a3c8013-9ca6-48dc-babe-b9d5072eb47c","PUTZ-ANDERSON, V. \u003Cstrong>Cumulative trauma disorsders: a manual for musculoskeletal diseases of the upper limbs\u003C/strong>. London: Taylor & Francis, 1988, 151p.",{"id":106,"label":107},"bf4e168a-acee-44d6-92b0-19fb70b51f09","TICHAUER, E. R. & GAGE, H. Ergonomic principles basic to hand tool design. \u003Cstrong>American Industrial Hygiene Association Journal\u003C/strong>. 38 (11): 622-634, 1977.",{"id":109,"label":110},"33a5c91f-c2fa-45d0-bc6d-81011a273d79","YUN, M.; KOTANI, K. & ELLIS, D. Using Force Sensitive Resistors to evaluate hand tool grip design. In: \u003Cstrong>Proceedigns Human Factors Society 36\u003Csup>th\u003C/sup> Annual Meeting\u003C/strong>. Santa Monica – CA: Human Factors Society, pp. 806-810. 1992.",1006,"ihd8moha","2025-02-10T06:55:34-03:00","enabled",2,[117],"the_use_of_fsr_in_evaluation_of_hand_tools_grip_a_methodological_alternative_for_grip_design_ergonomic",{"target":119,"query":120},"people/get",{"id":10,"articles":121},"true",1780316127046]