The issue of the development of material package for protective cloth designing
Introduction: The article presents the characteristics of existing materials of top, heat-insulating and lining materials which are used for the design of protective clothing. A number of comparative analyses of the studied materials for further use them as a package in overalls was carried out. Materials and Methods: When writing, various methods were used, such as the comparison method, the historical method, the market analysis method, and others. Results and Discussion: We have researched the various fabrics and non-fabrics produced and used in industry that fall under the category of protective fabrics. Conclusions: As a result of a comparative, bibliometric analysis, it was revealed that a wide variety of different special-purpose materials is currently on the market.
Inherent flame retardant In Klopman; 2022. Available from: https://www.klopman.com/inherent-flame-retardant Accessed: July 29, 2022.
Flame Retardant Fabrics in Carrington Textiles; 2022. Available from: https://www.carrington.co.uk/en/fabrics/flame-retardant-fabrics/ Accessed: July 29, 2022.
TenCate; 2022. Available from: https://tencatefabrics.com/redirect/ Accessed: July 29, 2022.
ZAO Eliot; 2022. Available from: http://zaoeliot.com/products.shtml#m Accessed: July 29, 2022.
Fiberteck Comprehensive Protection in Fiberteck; 2022. Available from: https://fiberteck.by/uteplitel/fajbertek-kompleksnaya-zashchita-kz Accessed: July 29, 2022.
Aramid in Teijin, 2022. Available from: https://www.teijin.com/products/advanced-fibers Accessed: July 29, 2022.
SIST EN 469:2020 Protective clothing for firefighters - performance requirements for protective clothing for firefighting activities; 2020. Available from: https://standards.iteh.ai/catalog/standards/cen/f4bc476d-c276-4020-8878-138c8e27933d/en-469-202 Accessed: July 29, 2022.
Fabrics. Flame-Resistant Fabric Brands in Westex; 2022. Available from: https://www.westex.com/fabrics/ Accessed: July 29, 2022.
Jin L, Cao ML, Park PK, Li Y. New Approaches to Evaluate the Performance of Firefighter Protective Clothing Materials. Fire Techn. 2018. 54(5):1283–1307. https://doi.org/10.1007/s10694-018-0730-2
ST RK 1495-2006 Fire entry suit. General technical requirements. Testing Methods; 2006. Available from: https://www.kazakhstanlaws.com/search.aspx?searchterm=ST%20RK%201495-2006%20&showPics=1 Accessed: July 29, 2022.
Talaspaeva AA, Zhilisbayeva RO The issue of the development of material package for protective cloth designing (article). Izvestia of Higher Educational Institutions. 2015. 357(3):112-115.
Zhilisbayeva RO, Tashpulatov SSH, Talaspayeva AA. Study of strength characteristics of nonwoven samples. Izvestia of Higher Educational Institutions. 2017. 371(5):126-128.
Dupont; 2022. Available from: https://www.dupont.com/brands/nomex.html Accessed: July 29, 2022.
Cherunova I, Kornev N, Lukyanova Е, Varavka V. Development and study of the structure and properties of a composite textile material with encapsulated heat-preserving components for heat-protective clothing. Appl Sci. 2021. 11(11):5247. https://doi.org/10.3390/app11115247
Cherunova I, Stefanova E, Radyuhina G. Method of getting the composite fiber material with functional heat-resistant, heat-accumulating components. IOP Conference Series: Mater Sci & Engin. 2020. 1001(1):012014. https://doi.org/10.1088/1757-899X/1001/1/012014
Zheng Y, Jin L, Qi J, Gill S, Li Y. Performance evaluation of conductive tracks in fabricating e-textiles by lock-stitch embroidery. J Industrial Textiles. 2022. 51(4):6864S-6883S. https://doi.org/10.1177/1528083720937289
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