Atkins, K., & Thompson, M. (2011). Еffect of textile hygroscopicity on stratum corneum hydration, skin erythema and skin temperature during exercise in the presence of wind and no wind. Discipline of Exercise and Sport Science, 9(2), pp. 100-108.

Chen, Q., & et al. (2011, April). An alternative criterion in heat transfer optimization. Proceedings of the Royal Society a Mathematical Physical and Engineering Sciences, 467(2128), pp. 1012-1028. doi:10.1098/rspa.2010.0293

Ismail, M., Ammar, A., & El-Okeily, M. (1988, August). Heat transfer through textile fabrics: mathematical model. Applied Mathematical Modelling, 12(4), pp. 434-440.

Kozlowski, R. (2012). Handbook of textile fibers. Natural fibers (Series in Textiles ed.). Woodhead Publishing.

Mamasolieva, S., Rasulova, M., & Norboeva, G. (n.d.). Development of special clothes with high hygienic properties. India: Novateur Publication. Retrieved from www.novateurpublication.org

Merabia, S., & et al. (2009, August). Heat transfer from nanoparticles: A corresponding state analysis. Proceedings of the National Academy of Sciences, 106(36), pp. 15113-8. doi:10.10 73/pnas.0901372106

Mirtolipova, N. (2022). Razrabotka komfortnoy polevoy odezhdy dlya voyennosluzhashchikh Uzbekistana [Development of comfortable field clothing for the servicemen of Uzbekistan]. PhD thesis, Tashkent.

Rasulova, M., & et al. (2020). RF Patent No. 2739185.

Rasulova, M., & et al. (2021). Issledovaniye ustoychivosti tekstil’nykh materialov k vneshnim vozdeystviyam i yeyo zavisimost’ ot razlichnykh faktorov [Study of the resistance of textile materials to external influences and its dependence on various factors]. Problems of the textile industry and ways to solve them, pp. 175-181.

Rasulova, M., & et al. (2022). Selection of sewing thread for connecting details of workwear from fabrics of new structures. Proceedings of the AIP Conference, 2430, p. 030007. doi:10.1063/5.0076965

Rasulova, M., & Mamasolieva, S. (2021). Development of fabrics for special clothing for workers of the automotive Industry taking into account the climatic conditions of Uzbekistan. Solid State Technology, 64(2), pp. 2393-2399.

Rasulova, M., & Mamasolieva, S. (2021, January). Features of increasing some of the physical and mechanical properties of fabrics for workwear. International Journal of Progressive Sciences and Technologies (IJPSAT), 24(2), pp. 526-528. Retrieved from http://ijpsat.ijsht-journals.org

Rasulova, M., & Mamasoliyeva, S. (2020). Studying the characteristics of a new composite fabric for workwear. Proceedings of International Scientific and Technical Conference on “Problems and Prospects of Innovative Technique and Technology in Agri-Food Chain”. International Journal of Innovations in Engineering Research and Technology (IJIERT). Retrieved from www.ijiert.org

Tashpulatov, S., & et al. (2022). Development of a method for providing low-shrink textile materials and sewing products. Journal of Optoelectronics Laser, 41(4). doi:10050086.2022.04.60

The project “Concept for the development of the automotive industry of the Republic of Uzbekistan until 2025”. (2019, June 26). Retrieved from Normativ-huquqiy hujjatlar loyihalari muhokamasi portali: https://regulation.gov.uz/uz/document/4087

Ueda, H., & Havenith, G. (2005). The effect of fabric air permeability on clothing ventilation (Elsevier Ergonomics Book Series ed., Vol. 3). Elsevier.

Wright, T., Mahmud-Ali, A., & Bechtold, T. (2020). Surface coated cellulose fibres as a biobased alternative to functional synthetic fibres. Journal of Cleaner Production. doi:10.1016/j.jclepro.2020.123857

Wu, H., & Fan, J. (2008). Study of heat and moisture transfer within multi-layer clothing assemblies consisting of different types of battings. International Journal of Thermal Sciences(47), pp. 641-647.

Yermakova, I. (2006). Gigiyena odezhdy [Clothing hygiene]. Vladivostok.

Zhongxuana, L., Fengzhi, L., Yingxi, L., & Yi, L. (2004). Effect of the environmental atmosphere on heat, water and gas transfer within hygroscopic fabrics. Journal of Computational and Applied Mathematics(163), pp. 199-210. doi:10.1016/j.cam.2003.08.065