Monofilaments made of superengineering hot-melt polymers for processing by braiding and weaving methods

N. L. Kornilova; D. A. Miroshnichenko; T. Yu. Kareva; I. V. Musov; A. L. Slonov; S. Yu. Khashirova

doi:10.35164/0554-2901-2022-9-10-50-52

Monofilaments made of superengineering hot-melt polymers for processing by braiding and weaving methods

N. L. Kornilova, D. A. Miroshnichenko, T. Yu. Kareva, I. V. Musov, A. L. Slonov, S. Yu. Khashirova

https://doi.org/10.35164/0554-2901-2022-9-10-50-52

Full Text:

PDF (Rus)

Generate QR code

Abstract

The article discusses the main physical and mechanical characteristics of monofilaments made of superengineering polymers, which affect their suitability for processing by various textile technologies. These characteristics have been compared with those of high-density polyethylene monofilaments, which are successfully used in the creation of both single-layer and multilayer woven structures. The main limitations on the use of polymer threads in braiding and weaving technologies are revealed.

Keywords

high performance polymers, polyphenylsulfone, polyetheretherketone, monofilament, technical weaving, 3D weaving

About the Authors

N. L. Kornilova

Ivanovo State Polytechnic University
Russian Federation

Ivanovo

D. A. Miroshnichenko

Ivanovo State Polytechnic University
Russian Federation

Ivanovo

T. Yu. Kareva

Ivanovo State Polytechnic University
Russian Federation

Ivanovo

I. V. Musov

Kabardino-Balkarian State University named after H. M. Berbekov
Russian Federation

Nal'chik

A. L. Slonov

Kabardino-Balkarian State University named after H. M. Berbekov
Russian Federation

Nal'chik

S. Yu. Khashirova

Kabardino-Balkarian State University named after H. M. Berbekov
Russian Federation

Nal'chik

References

1. Евразийский химический рынок. Новые полимеры: полифениленсульфид // Международный деловой журнал. – 2008. – Т. 39. – № 3. – С. 14–21.

2. Ткачук А. И. Термопластичные связующие: настоящее и будущее / А. И. Ткачук [и др.] // Труды ВИАМ. – 2013. – № 11. – С. 7.

3. Кукин Г. Н. Текстильное материаловедение (текстильные полотна и изделия) / Г. Н. Кукин. – М.: Легпромбытиздат, 1992.

4. Сергеев В. Т. Разработка структуры и технологии изготовления многослойной комбинированной ткани из углеродных и кварцевых нитей : Дис. канд. техн. наук / В. Т. Сергеев. – М.: МГТУ им. А. Н. Косыгина, 2014.

5. Черняева О. Е. Сравнительное исследование напряженности и конструктивно-заправочной линии нитей основы в процессе выработки баллистической ткани на станке СТБ и DORNIER / О. Е. Черняева, Т. Ю. Карева // Известия вузов. Технология текстильной промышленности. – 2010. – № 1. – С. 50-54.

6. Папков С. П. Теоретические основы производства химических волокон / С. П. Папков. – М., 1990.

7. A. A. Zhansitov, S. Yu. Khashirova, A. L. Slonov, Zh. I. Kurdanova, A. S. Shabaev, A. A. Khashirov A. K. Mikitaev. Development of technology of polysulfone production for 3D printing. High Performance Polymers, 29 (6), (2017) 724–729.

8. A. A. Zhansitov, A. L. Slonov, R. A. Shetov, A. E. Baikaziev, K. T. Shakhmurzova, Zh. I. Kurdanova, S. Yu. Khashirova, Synthesis and properties of polyetheretherketones for 3d printing, Fibre Chemistry. 49-6 (2018) 414.

Review

For citations:

Kornilova N.L., Miroshnichenko D.A., Kareva T.Yu., Musov I.V., Slonov A.L., Khashirova S.Yu. Monofilaments made of superengineering hot-melt polymers for processing by braiding and weaving methods. Plasticheskie massy. 2022;(9-10):50-52. (In Russ.) https://doi.org/10.35164/0554-2901-2022-9-10-50-52

This work is licensed under a Creative Commons Attribution 4.0 License.

ISSN 0554-2901 (Print)

Username
Password
	Remember me
Not a user? Register with this site Forgot your password?

User

Plasticheskie massy

Monofilaments made of superengineering hot-melt polymers for processing by braiding and weaving methods

Full Text:

Abstract

Keywords

About the Authors

References

Review

For citations:

Cookies policy