HALQALI YIGIRISH MASHINASIDA BURAM UCHBURCHAGINING IP UZILISHIGA BOG‘LIQLIGINI TADQIQI
DOI:
https://doi.org/10.5281/zenodo.17814525Keywords:
ip, sifat, halqali yigirish, buram uchburchagi, tola, urchuq, cho‘zish, uzilish.Abstract
Ushbu maqolada halqali yigirish mashinasida ip pishiqligi va uzilishlar sonini kamaytirish bo‘yicha o‘tkazilgan
tahlillar asosida yaratilgan yangi qurilmaning dastlabki tajriba natijalari keltiriladi. Qurilmaning asosiy vazifasi – buram
uchburchagi zonasiga ta’sir ko‘rsatish orqali ipdagi uzilishlar sonini kamaytirish va tolalarning ip pishiqligida ishtirokini
oshirishdir. Olingan natijalar qurilmaning qo‘yilgan texnologik maqsadlarni samarali ta’minlashini ko‘rsatdi
References
Павлов Ю.В. Структурное преобразование в мычке у порога крутки в момент обрыва, Известия ВУЗов, 1965;
№4, С. 56-61
Zhao, H.B. et al. Carbon nanotube yarn strain sensors. Nanotechnology 21, 305502 (2010).
Li, Y.B. et al. Overtwisted, resolvable carbon nanotube yarn entanglement as strain sensors and rotational actuators.
Acs Nano 7, 8128-8135 (2013).
Kang, T.J. et al. Electromechanical properties of CNT-coated cotton yarn for electronic textile applications. Smart
Mater. Struct. 20, 015004 (2011).
Ju Yun, Y. et al. Ultrasensitive and highly selective graphene-based single yarn for use in wearable gas sensor. Sci
Rep 5, 10904 (2015).
Lima, M.D. et al. Electrically, chemically, and photonically powered torsional and tensile actuation of hybrid carbon
nanotube yarn muscles. Science 338, 928-932 (2012).
Zhang, M., Atkinson, K.R. & Baughman, R.H. Multifunctional carbon nanotube yarns by downsizing an ancient
technology.Science 306, 1358-1361 (2004).
Foroughi, J. et al. Torsional carbon nanotube artificial muscles. Science 334, 494-497 (2011).
Ren, J. et al. Elastic and wearable wire-shaped lithium-ion battery with high electrochemical performance. Angew.
Chem. Int. Edit. 53, 7864-7869 (2014).
Choi, C. et al. Flexible supercapacitor made of carbon nanotube yarn with internal pores. Adv. Mater. 26, 2059-2065
(2014).
Meng, Q.H. et al. High-performance all-carbon yarn micro-supercapacitor for an integrated energy system. Adv. Mater.
, 4100–4106 (2014).
Бузов Б.А. Материаловедение в производстве изделий легкой промышленности: учебник для студентов вузов.
- М.: Изд-ий центр «Академия», 2004. - 448 с.
Bobojanov H.T. Yigirish mashinalari parametrlarini optimallash yo‘li bilan ipning deformasion xossalarini yaxshilash va
mahsulot raqobatbardoshligini oshirish. Texn.fan.dokt.dissert. Namangan, NamMTI. 2019-y. 193 b.
Stalder Herbert. Пряжа COM 4. // Реф. сбор. Текстильной промышленности – Москва, 2002. -№6. - С. 7.
Nicolic Momir, Stjepanovič Zoran, Lesjak Franc, Stritof Andrej. Получение компактной пряжи кольцевого прядения
// Реф. сбор. Текстильной промышленности – Москва, 2004. -№9. - С. 5.
Çelik Pinar, Kadoğlu Hüseyin. Исследование свойств компактной пряжи из длинных волокон // Реф. сбор.
Текстильной промышленности – Москва, 2005. -№7. - С. 6.
Степанов Н.В. Моделирование процесса формирования мычки на кольцевой прядильной машине // Известия
вузов, Технология текстильной промышленности – Иваново, 2009. -№1. С (313) - С. 41-43.
W. Klein, Spinning Geometry and its Significance, International Textile Bulletin, Zurich, 1993
Muhammet Akaydin Characteristic of fabrics knitted with basic knitting structures from combed ring and compact
yarns // Indian Journal of Fibre & Textile Research Vol. 34. March 2009. p. 26-30
K.J.Jumaniyazov, X.T.Bobojanov, J.K.Gafurov “Sravneniye ustroystv dlya kompaktnoy kolsevoy pryaji”, To‘qimachilik
muammolari, №4, 2009-yil, 19-21 b.
Downloads
Published
Issue
Section
License
Copyright (c) 2025 MUHANDISLIK VA IQTISODIYOT
This work is licensed under a Creative Commons Attribution 4.0 International License.