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Development of a method for producing fire-resistant and biocidal non-woven material from linen and wool fibers

https://doi.org/10.48184/2304-568X-2024-1-173-181

Abstract

The article considered the effective issues of preparing a set of quality of special clothes for express delivery courier service, strengthening corporate culture and promoting the brand. The special uniform of the employees ensures the reputation and reliability of the service companies, which increases the professional image of the service. A special uniform, made of textured materials mixed with corporate colors, allows customers to immediately identify the field of service, increases its recognition in this field and the loyalty of its work. In the preparation of express delivery courier clothing sets, mixed textured materials were selected and the wear resistance, non-cracking and friction resistance properties of the various materials package met the specified index requirements, the state technical regulatory committee analyzed the standard indicators in the test samples. The multi-functional express delivery courier clothing set prepared according to the requirements of modern fashion has the importance of creating a new composition of the suit in new constructive and artistic solutions for each season, making the transformation of the courier clothing according to the function impossible. On the basis of the above-mentioned factors, courier clothing is transformed according to the service. A set of clothes prepared with reflective elements ensures the safety of the courier (front waist, back waist, sleeves, trouser seams). Courier's special work clothes made from a package of mixed textured materials, express delivery set is easy to service and meets operational requirements, its shape allows comfortable operation in any weather without hindering movement and extends the service life.

About the Authors

N. A. Idelbayeva
Almaty Technological University
Kazakhstan

050012, Almaty, Tole bi st., 100



A. Burkitbay
Almaty Technological University
Kazakhstan

050012, Almaty, Tole bi st., 100



M. A. Ormanova
Almaty Technological University
Kazakhstan

050012, Almaty, Tole bi st., 100



Ye. Takey
Almaty Technological University
Kazakhstan

050012, Almaty, Tole bi st., 100



T. Ongar
Institute of Textile Machinery and High Performance Material Technology at Technical University of Dresden
Germany

 01069, Dresden, st., Hohe 6



References

1. Ertas A.M., Burkitbay A., Niyazbekov B., Tausarova B.R. “Pridanie biotsidnyh svoistv uteplitelnym materialam iz lnyanyh volokon [Giving biocidal properties to insulation materials made of linen fibers].” Vestnik ATU, №2 (132), 2021: 32-37 - (In Russian)

2. Sarymsakova A.T., Burkitbay A., Tausarova B.R. “Development of a method for fire-resistant of non-woven material using a phosphorus-containing composition.” Vestnik ATU, №3, 2022: 223 – 229 - (In Russian)

3. Takey Ye., Tausarova B.R., Burkitbai A. “İssledovanie teplovydeleniya obrabotannyh tsellyuloznyh tekstilnyh materialov zol-gel kompozitsiei [Investigation of heat release of processed cellulose textile materials by sol-gel composition].” Tehnologiya tekstilnoi promyshlennosti, No. 6 (384), 2019: 236 – 240 - (In Russian)

4. Takey Ye., Taussarova B.R. “Sol-gel composition on the basis of sodium silicate and ammonium polyphosphate for obtaining fire retardant cellulose textile materials.” Himicheskii jurnal Kazahstana, №4, 2018: 43 - 49 - (In Russian)

5. Tausarova B. R., Kutzhanova A. Zh., Abdrakhmanova G.S. “Snijenie goryuchesti tekstilnyh materialov: dostijeniya i perspektivy [Reduction of combustibility of textile materials: achievements and prospects].” Himicheskii jurnal Kazahstana, №1 (49), 2015: 287 – 303 - (In Russian)

6. Visakh, P. M., Yoshihiko A. “Flame Retardants.” Polymer Blends, Composites and Nanocomposites. Cham, Switzerland: Springer International Publishing AG, 2015 - (In Russian)

7. Giuseppe R., Claudio C., Emanuela G., Giulio M. “Phosphorus-Silica Sol-Gel Hybrid Coatings for Flame Retardant Cotton Fabrics.” Textile № 60(1), 2017:29 – 35 - (In Russian)

8. Burkitbay A. Rakhimova S.M., Taussarova B.R., Kutzhanova A.Zh. “Development of a Polymeric Composition for Antimicrobial Finish of Cotton.” Fibers & textiles in Eastern Europe, №2 (104), 2014: 96 – 101- (In Russian)

9. Kanat E.K., Burkitbai A., Tausarova B.R. “Primenenie fosforsoderjaщei kompozitsii v razrabotke ognestoikih netkanyh materialov iz lubyanyh volokon [Application of phosphorus-containing composition in the development of fire-resistant nonwovens from bast fibers].” Nauka. Obrazovanie. Molodej, ATU Conference, 2019: 129– 131 - (In Russian)

10. Takei E., Tausarova B.R., Burkitbai A. “İssledovanie teplovydeleniya obrabotannyh tsellyuloznyh tekstilnyh materialov zol-gel kompozitsiei [Investigation of heat release of processed cellulose textile materials by sol-gel composition].” Tehnologiya tekstilnoi promyshlennosti, No. 6 (384), 2019: 236 – 240 - (In Russian)

11. Takey Ye., Taussarova B.R. “Sol-gel composition on the basis of sodium silicate and ammonium polyphosphate for obtaining fire retardant cellulose textile materials.” Himicheskii jurnal Kazahstana, №4, 2018: 43-49 - (In Russian).

12. Khan, L., Kim, J.S., Huh, S.H., Koo B.H. “N-Containing Hybrid Composites Coatings for Enhanced Fire-Retardant Properties of Cotton Fabric Using One - Pot Sol–Gel Process.” Polymers, №15 (2), 2023: 258 – 269 - (In Russian).

13. Madyaratri, E.W., Ridho, M.R., Aristri, M.A., Lubis, M.A.R., Iswanto, A.H., Nawawi, D.S., Antov, P., Kristak, L., Majlingová, A., Fatriasari W. “Recent Advances in the Development of Fire-Resistant Biocomposites.” Polymers, №14 (3), 2022: 362 – 376 - (In Russian)

14. Kovačević, Z.; Flinčec G., S.; Bischof, S. “Progress in Biodegradabe Flame Retardant Nano-Biocomposites”. Polymers, 13 (5), 2021: 741 – 754- (In Russian)

15. Nabiev N.D., Rafikov A.S. “Razrabotka tehnologii ognestoikoi otdelki smesovoi tkani [Development of technology of fire-resistant finishing of mixed fabric].” Vestnik nauki i obrazovaniya, № 13(49), 2018: 554 – 567- (In Russian)


Review

For citations:


Idelbayeva N.A., Burkitbay A., Ormanova M.A., Takey Ye., Ongar T. Development of a method for producing fire-resistant and biocidal non-woven material from linen and wool fibers. The Journal of Almaty Technological University. 2024;143(1):173-181. (In Kazakh) https://doi.org/10.48184/2304-568X-2024-1-173-181

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ISSN 2304-568X (Print)
ISSN 2710-0839 (Online)