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Publication Date: 2014-01-01
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Zuleta, F. A. (2014). Scrub measurement: Methodology, design and manufacturing of equipment for textile comfort calculation in clinical use. Kepes, 11(10), 303–316. Retrieved from https://ucaldas.metarevistas.org/index.php/kepes/article/view/531
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Abstract
Abstract
This paper is part of the research project “Development and manufacture of scrub” in phase 2. It presents the preliminary development of a thermoregulatory machine that determines the comfort of garments (thermal resistance and evaporative resistance) under the technical standards used in the production of these products in the market. The thermoregulatory machine is built according to the ISO 11092:1993 guidelines. It executes a control algorithm in the relative humidity variable, temperature and flow rate to sustain and simulate the conditions and effects of the skin. The results are displayed on a touch screen interface to determine the variations in the process and ensure the convergence of the values present.
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References
Baquero, M. (2006). El confort como una característica importante en el diseño de prendas: Una estrategia de valor agregado para la economía de la cadena. Vol. 1, fasc. 1. Buenos Aires: Actas de Diseño. p. 233
International Organization for Standardization. (1993). ISO 11092:1993, Textiles -Physiological Effects - Measurement of Thermal and Water-Vapour Resistance Under Steady - State Conditions (Sweating Guarded Hotplate Test). Geneva. Fernández, C. (2013). La profundidad de la apariencia: el vestido en el debate entre el arte y el diseño. Poliantea, 9(16), 129-150.
Hollen, N. (2010). Introducción a los textiles. México: Ed. Limusa.
Rigby, D. (2002). Technical Textiles and Industrial Nonwovens: World Market Forecast to 2010. In David Rigby Associates Inform.
Rigby, D. (2004). World market for the technical textiles 50% bigger than previously estimated. 52-53.
Roy Choudhury, A.K. (2011). Factors affecting comfort: human physiology and the role of clothing. En Improving comfort in clothing (pp. 3-57). Cambridge: Ed. Woodhead P.L.
Salmon, D. (2001). Thermal conductivity of insulations using guarded hot plates,including recent developments and sources of reference materials. Meas. Sci. Technol., 12(12), R89.
Shelton, C., Raistrick, C., Warburton, K., & Siddiqui, H. (2009). Can changes in clinical attire reduce likelihood of cross-infection without jeopardising the doctorpatient relationship? Journal Hospital Infection, 74, 22-29.
Tleoubaev, A., & Brzezinski, A. (2005). Combined guarded hot plate and heat flow meter method for absolute thermal conductivity tests excluding thermal contact resistance. Therm. Conduct., 27, 502.
Zimmermann, Y. (2003). El arte es arte el diseño es diseño. En Calvera, A. (Ed.), Arte ¿? Diseño (pp. 31-57). Barcelona: Gustavo Gili.
Zuleta, F. (2012). Desarrollo y fabricación de vestuario médico, modificación de metodologías para procesos investigativos. 4 Seminario Internacional de Investigación en Diseño. Duitama: Ed. Taller 11, UPTC. Recuperado de http://www. uptc.edu.co/eventos/2012/siidv/memoria/sid.swf
International Organization for Standardization. (1993). ISO 11092:1993, Textiles -Physiological Effects - Measurement of Thermal and Water-Vapour Resistance Under Steady - State Conditions (Sweating Guarded Hotplate Test). Geneva. Fernández, C. (2013). La profundidad de la apariencia: el vestido en el debate entre el arte y el diseño. Poliantea, 9(16), 129-150.
Hollen, N. (2010). Introducción a los textiles. México: Ed. Limusa.
Rigby, D. (2002). Technical Textiles and Industrial Nonwovens: World Market Forecast to 2010. In David Rigby Associates Inform.
Rigby, D. (2004). World market for the technical textiles 50% bigger than previously estimated. 52-53.
Roy Choudhury, A.K. (2011). Factors affecting comfort: human physiology and the role of clothing. En Improving comfort in clothing (pp. 3-57). Cambridge: Ed. Woodhead P.L.
Salmon, D. (2001). Thermal conductivity of insulations using guarded hot plates,including recent developments and sources of reference materials. Meas. Sci. Technol., 12(12), R89.
Shelton, C., Raistrick, C., Warburton, K., & Siddiqui, H. (2009). Can changes in clinical attire reduce likelihood of cross-infection without jeopardising the doctorpatient relationship? Journal Hospital Infection, 74, 22-29.
Tleoubaev, A., & Brzezinski, A. (2005). Combined guarded hot plate and heat flow meter method for absolute thermal conductivity tests excluding thermal contact resistance. Therm. Conduct., 27, 502.
Zimmermann, Y. (2003). El arte es arte el diseño es diseño. En Calvera, A. (Ed.), Arte ¿? Diseño (pp. 31-57). Barcelona: Gustavo Gili.
Zuleta, F. (2012). Desarrollo y fabricación de vestuario médico, modificación de metodologías para procesos investigativos. 4 Seminario Internacional de Investigación en Diseño. Duitama: Ed. Taller 11, UPTC. Recuperado de http://www. uptc.edu.co/eventos/2012/siidv/memoria/sid.swf
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