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Ocena możliwości aplikacji tekstylnych materiałów polimerowych na układy cholewkowe obuwia o podwyższonych walorach zdrowotnych
Języki publikacji
Abstrakty
In this paper, the authors focused on the examination of the possibility of polymer material applications as upper footwear elements in order to improve the functional properties, which are transposed to the hygienic comfort conditions. The set of materials used in this research were two – layered packages stitched together around the edges. Cotton material formed the outer layer, and polymer fabrics were used as the inner layer. Hygienic properties were identified with the use of water vapour permeability and water vapour absorption characteristics, while the thermal conductivity property was described on the basis of research done with an Alambeta device. Statistical analysis with the use of the t-Student test was conducted and showed that the proposition of material substitution undertaken was able to improve the hygienic characteristics of material packages, which can be implemented in manufacturing practice as upper materials with higher functional properties.
W pracy skoncentrowano się na zbadaniu możliwości zastosowania materiałów polimerowych, jako elementów układów cholewkowych w celu poprawy właściwości użytkowych transponowanych na parametry komfortu fizjologicznego. Badaniom poddano dwuwarstwowe pakiety zszywane po brzegach, w których w roli wierzchniej warstwy zastosowano materiał bawełniany, zaś warstwę podszewkową stanowiły materiały polimerowe na bazie poliestru o różnej strukturze – w tym również przestrzennej. Właściwości higieniczne zidentyfikowano za pomocą współczynników absorpcji i przepuszczalności pary wodnej. Z kolei właściwości cieplne zostały opisane na podstawie wykonanych badań przewodnictwa cieplnego przeprowadzonego z wykorzystaniem przyrządu Alambeta. Przeprowadzone badania pozwoliły na sklasyfikowanie materiałów pod względem możliwości ich zastosowania, jako komponentów cholewkowych pakietów obuwniczych z uwzględnieniem ich potencjalnych walorów zdrowotnych.
Czasopismo
Rocznik
Strony
89--94
Opis fizyczny
Bibliogr. 37 poz., rys., tab.
Twórcy
autor
- Łukasiewicz Research Network – Institute of Leather Industry, ul. Zgierska 73, 91-463 Łódź, Poland
autor
- Łukasiewicz Research Network – Institute of Leather Industry, ul. Zgierska 73, 91-463 Łódź, Poland
autor
- Lodz University of Technology, Faculty of Material Technologies and Textile Design, Institute of Architecture of Textiles, ul. Żeromskiego 116, 90-924 Łódź, Poland
autor
- Łukasiewicz Research Network – Institute of Leather Industry, ul. Zgierska 73, 91-463 Łódź, Poland
autor
- Łukasiewicz Research Network – Institute of Leather Industry, ul. Zgierska 73, 91-463 Łódź, Poland
Bibliografia
- 1. Irzmańska E. The Microclimate in Protective Fire Fighter Footwear: Foot Temperature and Relative Humidity. AUTEX Research Journal 2016; 16 (2): 75-79.
- 2. Ławińska K, Serweta W, Jaruga I, Popovych N. Examination of Selected Upper Shoe Materials Based on Bamboo Fabrics. FIBRES & TEXTILES In Eastern Europe 2019; 27, 6(138): 85-90. DOI: 10.5604/01.3001.0013.4472.
- 3. Gulbiniene A, Jankauskaite V, Kondratas A. Investigation of the Water Vapour Transfer Properties of Textile Laminates for Footwear Linings. FIBRES & TEXTILES in Eastern Europe 2011, 19, 3 (86): 78-81.
- 4. Irzmańska E, Dutkiewicz J K, Irzmański R. New Approach to Assessing Comfort Use of Protective Footwear with a Textile Liner and its Impact on Foot Physiology. Textile Research Journal 2014; 84 (7): 728-738.
- 5. Langmaier F. Hygiena A Komfort Obute Nohy, Kozarstvi 1990; 40 (12): 345-349.
- 6. Serweta W, Matusiak M, Olejniczak Z, Jagiełło J, Wójcik J. Proposal for the Selection of Materials for Footwear to Improve Thermal Insulation Properties Based on Laboratory Research. FIBRES & TEXTILES in Eastern Europe 2018; 26, 5(131): 75-80. DOI: 10.5604/01.3001.0012.2535.
- 7. Ławińska K, Serweta W, Gendaszewska D. Applications of Bamboo Textiles in Individualised Children’s Footwear. FIBRES & TEXTILES in Eastern Europe 2018; 26, 5(131): 87-92. DOI: 10.5604/01.3001.0012.2537.
- 8. Serweta W, Olejniczak Z, Matusiak M. Improve of Footwear Comfort Sensation with Material Packages and Knitted Fabrics. FIBRES & TEXTILES in Eastern Europe 2019; 27, 3(135): 85-90. DOI: 10.5604/01.3001.0013.0747.
- 9. Arezes PM, Neves MM, Teixeira SF, Leao CP, Cunha JL. Testing Thermal Comfort of Trekking Boots: an Objective and Subjective Evaluation. Applied Ergonomics 2013; 44 (4): 557-565.
- 10. Diebschag W, Mueller-Limmroth W, Mauderer V. Influence of Several Socks and Linings on the Microclimate in Shoes with Upper Material of Leather or Synthetic. Journal of the American Leather Chemists Association 1976: 71 (6): 239-306.
- 11. Kawabata A, Tokura H. Effect of Shoe Type on the Thermoregulatory Response and Clothing Microclimate in Women During Walking and Resting. Journal of Home Economics of Japan 1993; 44 (8): 665-670.
- 12. Taylor NAS, Caldwel JN, Mekjavic IB. The Sweating Foot: Local Differences in Sweat Secretion During Exercise – Induced Hyperthermia. Aviation, Space and Environmental Medicine 2006; 77 (10): 1020-1027.
- 13. Ławińska K, Serweta W, Modrzewski R. Qualitative Evaluation of the Possible Application of Collagen Fibres: Composite Materials with Mineral Fillers as Insoles for Healthy Footwear. FIBRES & TEXTILES in Eastern Europe 2018; 26, 5(131): 81-85. DOI: 10.5604/01.3001.0012.2536.
- 14. Ławińska K, Serweta W, Modrzewski R. Studies on Water Absorptivity and Desorptivity of Tannery Shavings-Based Composites with Mineral Additives. Przemysl Chemiczny 2019; 98(1): 106-109.
- 15. Ławińska K, Modrzewski R, Serweta W. Tannery Shavings and Mineral Additives as a Basis of New Composite Materials. FIBRES & TEXTILES in Eastern Europe 2019; 27, 5(137): 89-93. DOI: 10.5604/01.3001.0013.2906.
- 16. Irzmańska E. The Impact of Different Types of Textile Liners Used in Protective Footwear on the Subjective Sensations of Firefighters. Applied Ergonomics 2015; 47: 34-42.
- 17. Colonna M, Moncalero M, Nicotra M, Pezzoli A, Fabbri E, Bortolan L, Pellegrini B, Schena F. Thermal Behaviour of Ski – Boot Liners: Effect of Materials on Thermal Comfort in Real and Simulated Skiing Conditions. Procedia Engineering 2014; 72: 386-391.
- 18. Soares G, Magalhaes A, Vasconcelos A, Pinto E, Santos J. Comfort and Antimicrobial Properties of Developed Bamboo, Polyester and Cotton Knitted Spacer Fabrics. Cellulose Chemistry and Technology 2018; 52 (1-2): 113-121.
- 19. Troynikov O, Wardiningsih W. Moisture Management Properties of Wool/Polyester and Wool/Bamboo Knitted Fabrics for the Sportswear Base Layer. Textile Research Journal 2011; 81 (6): 621-631.
- 20. Irzmańska E, Brochocka A. Influence of the Physical and Chemical Properties of Composite Insoles on the Microclimate in Protective Footwear. FIBRES & TEXTILES in Eastern Europe 2014; 22, 5(107): 89-95.
- 21. Serweta W, Gajewski R, Olszewski P, Zapatero A, Ławińska K. Carbon Footprint of Different Kinds of Footwear – a Comparative Study. FIBRES & TEXTILES in Eastern Europe 2019; 27, 5(137): 94-99. DOI: 10.5604/01.3001.0013.2907.
- 22. PN-EN ISO 20344:2012. Personal protective equipment – Test methods for footwear.
- 23. Matusiak M. Ciepłochronność tkanin odzieżowych, Textile Research Institute, Lodz, 2011.
- 24. Matusiak M, Kowalczyk S. Thermal Insulation Properties of Multilayer Textile Packages. Autex Research Journal 2014; 14 (4): 299-307.
- 25. Chidambaram P, Govind R, Venkataraman K C. The Effect of Loop Lenght and Yarn Linear Density on the Thermal Properties of Bamboo Knitted Fabric. Autex Research Journal 2011; 11 (4): 102-105.
- 26. Majumdar A, Mukhopadhyay S, Yadav R. Thermal Properties of Knitted Fabrics Made from Cotton and Regenerated Bamboo Cellulosis Fibres. International Journal of Thermal Science 2010; 40 (10): 2042-2048.
- 27. Frydrych I, Dziworska G, Bilska J. Comparative analysis of the thermal insulation properties of fabrics made of natural and man – made cellulose fibres, FIBRES & TEXTILES in Eastern Europe 2002; 10, 4(39): 40-44.
- 28. Wang Y, Lu Y, Li J. Effects of Air Gap Entrapped In Multilayer Fabrics and Moisture on Thermal Protective Performance. Fibers and Polymers 2012; 13 (5): 647-652.
- 29. Schacher L, Adolphe DC, Drean JY. Comparison Between Thermal Insulation and Thermal Properties of Classical and Microfibres Polyester Fabrics. International Journal of Clothing Science and Technology 2000; 12 (2): 84-95.
- 30. Herva M, Alvarez A, Roca E. Sustainable and Safe Design of Footwear Integrating Ecological Footprint and Risk Criteria. Journal of Hazardous Materials 2001; 192 (3): 1876-1881.
- 31. Wang F, Zhou X, Wang S. Development Processes and Property Measurements of Moisture Absorption and Quick-Dry Fabrics. FIBRES & TEXTILES in Eastern Europe 2009; 17 2(73): 46-49.
- 32. Kuklane K, Holmer I, Giesbrecht G. Change of Footwear Insulation at Various Sweating Rates, Journal of Physiological Anthropology 1999; 18 (5): 161-168.
- 33. Frydrych I, Sybilska W, Wajszczyk M. Analysis of Selecte Physical Properties of Membrane Fabrics Infl uencing the Utility Comfort of Clothing. FIBRES & TEXTILES in Eastern Europe 2009, Vol. 17, No. 6 (77) pp. 50-55.
- 34. Goonetilleke RS, Luximon A. Designing for Comfort: a Footwear Application, Proceedings of the Computer – Aided Ergonomics and Safety Conference 1, 2001: 1-6.
- 35. Wilbik-Hałgas B, Danych R, Więcek B, Kowalski K. Air and Water Vapour Permeability in Double – Layered Knitted Fabrics with Different Raw Materials. FIBRES & TEXTILES in Eastern Europe 2006; 14, 3(57): 77-80.
- 36. Kłonowska M, Kowalski K. Optimising Knitting Process Conditions on the Basis of Controlled Robbing – Back of Yarn. FIBRES & TEXTILES in Eastern Europe 2006; 14, 1(55): 47-51.
- 37. Kłonowska M, Kowalski K. Assessment of Knitting Conditions and States of Discontinuous Robbing Back in the Knitting Zone on Weft – Knitting Machines. FIBRES &TEXTILES in Eastern Europe 2002; 10, 3(38): 50-52.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bb0f09d6-e173-4028-aed9-7b14145ae781