Application of statistical methods in optimizing the thickness of protective clothing materials in extreme conditions
Keywords:
Keywords: rabbit down, extreme conditions, thermal insulation materials, polyester fibers, structural allowances, ergonomics, military clothing, non-woven materialsAbstract
Abstract: This study is devoted to improving the design process of highly heat-retaining and ergonomic special clothing for military personnel serving in extremely cold conditions. The microscopic structure and high thermal insulation properties of rabbit wool were scientifically analyzed in the study. Nonwoven materials made from 50/50 mixtures of rabbit wool, camel and sheep wool with polyester fibers were studied as part of the heat-retaining package. The results of the analysis showed that polyester fibers enrich the thermal properties of natural wool with strength and moisture management (wicking) indicators. Within the framework of constructive solutions, it was achieved to reduce the weight of the clothing and maintain maximum freedom of movement by optimizing the “Freedom Additive” (EQ), “Package Additive” (PQ) and general constructive additives (KQ). The results of the study show that the developed special military clothing is distinguished by its lightness, effective moisture management and high heat retention indicators compared to traditional models. This scientific solution is of significant practical importance in ensuring the operational mobility and safety of military personnel in extreme conditions.
Downloads
References
Kukin G.N., Solovev A.N. "Tekstilnoe materialovedenie (syre i materialy)". Moscow: Legkaya industriya, 2017. (Main resource on material properties ) .
Mendelson, H. “Thermal Insulation of Clothing”. In: Handbook of Textiles. Elsevier, 2019. (International Standard on Thermal Insulation).
Shishoo, R. “Textiles in Sport and Protective Clothing.” Woodhead Publishing, 2020. (Himoya kiyimlari bo'yicha zamonaviy yondashuv).
Ismailova S.I., Sadykova H.A. "Study of the properties of blended materials based on natural and synthetic fibers for the production of workwear." // Textile Journal, 2021.
Wang, Y., et al. “Thermal and moisture management properties of rabbit hair/polyester nonwoven composites.” Journal of Industrial Textiles, 2022.
Abdullaev, A.A. "Prospects for Using Local Raw Materials in the Production of Highly Effective Thermal Insulation Materials." T.: Fan va Technology, 2020.
Koblyakova E.B. "Designing clothes with elements of computer-aided design". Moscow: Legkaya industriya, 2018. (EQ, PQ va KQ tushunchalarini ilmiy asoslash uchun).
Buzov B.A., Alymenkova N.D. "Design of products from textile materials". Moscow: Academy, 2019.
Karimova, Z. “Optimization of design parameters for military functional clothing.” International Journal of Fashion Design and Technology, 2023.
Adler Yu.P., Markova E.V. "Planning an Experiment in Search of Optimal Conditions." — M.: Nauka, 2016. (To'liq omilli tajriba rejalarini tuzish uchun).
Montgomery, DC “Design and Analysis of Experiments”. John Wiley & Sons, 2020. (The world's most authoritative book on statistical analysis in scientific papers). 1.Mohamed Zemzem 1, Stéphane Hallé 2, Ludwig Vinches - Thermal Insulation of Protective Clothing Materials in Extreme Cold Conditions Volume 14, Issue 1, March 2023, Pages 107-117
M. Ray, M. King, H. Carnahan- A review of cold exposure and manual performance: implications for safety, training and performance Saf Sci, 115 (2019), pp. 1-11
X.Kamilova, N.Khamraeva, X.Yunuskhodjaeva, N.Mirtalipova. Construct the costume. Toshkent. 2025 y. 398 b.
Kh.Kamilova, N.Khamrayeva, Kh.YUnuskhodjaeva, N.Mirtalipova. Costume construction. Tashkent. 2025. 398 p.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
All content published in the Journal of Applied Science and Social Science (JASSS) is protected by copyright. Authors retain the copyright to their work, and grant JASSS the right to publish the work under a Creative Commons Attribution License (CC BY). This license allows others to distribute, remix, adapt, and build upon the work, even commercially, as long as they credit the author(s) for the original creation.
