RESEARCH ON THE ABILITY OF YARNS FOR TEXTILE PROCESSING

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dc.contributor.authorSlizkov, Andrew
dc.contributor.authorMykhailova, Halyna
dc.contributor.authorBorolis, Inna
dc.contributor.organizationTechnická univerzita v Liberci
dc.date.accessioned2022-08-18T09:25:57Z
dc.date.available2022-08-18T09:25:57Z
dc.description.abstractThe article is intended to study the destruction mechanism of yarns of different structures under different types of deformations that occur during their textile processing (weaving, knitting, etc.). Improving the wear resistance of yarns is one of the main ways to determine the causes of their destruction in textile processing with their subsequent elimination. The significance of this problem is determined by the fact that increasing the reliability and endurance of yarns is equivalent to increasing output without additional labor and material resources. The ability of yarns for textile processing is mainly determined by their mechanical characteristics in tension: tensile strength and elongation, endurance, longevity, cyclic elongation, and the like. In the regulatory documents, this ability is mainly assessed only by the indicators of tensile strength and elongation, which does not fully characterize their behavior in textile processing. Therefore, the study of the features of the yarn destruction under different types of mechanical interactions, as well as the impact of their structure on the process of destruction, is relevant for predicting their endurance and developing a new range of textile fabrics.cs
dc.formattext
dc.format.extent9 stran
dc.identifier.doi10.15240/tul/008/2022-2-003
dc.identifier.issn1335-0617
dc.identifier.urihttps://dspace.tul.cz/handle/15240/165997
dc.language.isocscs
dc.publisherTechnical University of Liberec
dc.publisher.abbreviationTUL
dc.relation.isbasedonPeterson J., Eckard A., Hjelm J., Morikawa H.: Mechanical-property-based comparison of paper yarn with cotton, viscose, and polyester yarns, Journal of Natural Fibers, 18(4), 2021, pp. 492-501, http://dx.doi.org/10.1080/15440478.2019.1629372
dc.relation.isbasedonJankowska D., Wyrostek A., Patkowska-Sokola B., Czyz K.: Comparison of physico-mechanical properties of fibre and yarn made of alpaca, sheep, and goat Wool, Journal of Natural Fibers, 18(10), 2021, pp. 1512-1517, https://doi.org/10.1080/15440478.2019.1691126
dc.relation.isbasedonPelyk L.V.: Research of wear resistance of flaxcontaining textile materials, Bulletin of Lviv University of Trade and Economics, 23, 2020, pp. 5–10.
dc.relation.isbasedonBuchkivska U.B.: Research of mechanical properties of dress and suit fabrics with the use of elastane threads, Commodity Bulletin, 7, 2014, pp. 41–46.
dc.relation.isbasedonOstapchyk O.W.: Research of mechanical properties of textile materials with the use of baby fibers, Bulletin of Khmelnytsky National University Series: "Technical Sciences", 5(285), 2021, pp. 246- 249.
dc.relation.isbasedonDanilchuk E.L: Research of processes of long-term deformation of technical polypropylene fibrous structures, Bulletin of NTUU "KPI". Mechanical Engineering Series, 3(69), 2013, pp. 203-210.
dc.relation.isbasedonDmitryk О.М.: Influence of the type of knitting equipment on the indicators of loss of strength of polyethylene and para-aramid threads after knitting, Bulletin of KhNTU, 1(72), 2020, pp. 89-96.
dc.relation.isbasedonHlobyna S.A.: Issledovanie prochnosti v suhom i mokrom sostoyanii paraaramidnyh nitej rossijskogo i zarubezhnogo proizvodstva, Vestnik nauki i obrazovaniya, 43, 2018, pp. 27-32.
dc.relation.isbasedonHlobyna S.A.: Issledovanie vliyaniya skorosti rastyazheniya na mehanicheskie svojstva paraaramidnyh nitej, Vestnik nauki i obrazovaniya, 7(43), 2018, pp. 23-26.
dc.relation.isbasedonKaswell R.: Textile fibers, yarn and fabrics, Moscow: Ed. scientific and technical literature, 1960.
dc.relation.isbasedonSevostyanov A.G.: Methods and tools for the study of mechanical and technological processes in the textile industry, Moskow: MGTU im. A.N. Kosygin, OOO Sovyazh Bevo, 2007.
dc.relation.isbasedonRazumeev K.E.: Prediction of the properties of combed tape and wool yarn, Textile industry, 4, 1998, pp. 28-30.
dc.relation.isbasedonTahvildar A., Ezazshahabi N., Mousazadegan F.: Appearance and comfort properties considering yarn-spinning system and weave structure in worsted woven fabrics, Journal of Engineered Fibers and Fabrics, 14, 2019, https://doi.org/10.1177/1558925019845978
dc.relation.isbasedonRazumeev K.E.: Methods for predicting thin spots in yarn, Textile industry technology, 2(248), 1999, pp. 38-41.
dc.relation.isbasedonKukin G.N.: Textile materials science (textile fabrics and products), Legprombytizdat, 1992.
dc.relation.isbasedonRajagopalan, R., Dasaradan B.S, Murugan R., Kanakaraj P.: Reliability analysis of thermal core ring-spun yarn using two-parameter Weibull distribution, Journal of the Textile Institute, 105(10), pp. 1042-1049. https://doi.org/10.1080/00405000.2013.871099
dc.relation.isbasedonBuzov B.A.: Materials science in the production of light industry products, Clothing industry, Moscow: Ed. Center "Academy", 2004.
dc.relation.isbasedonChattopadhyay R., Tyagi G.K., Goyal A.: Studies of hybrid effect in mechanical properties of tencel blended ring-, rotor- and air-jet spun yarns, Journal of the Textile Institute,104(3), 2013, pp. 339-349. https://doi.org/10.1080/00405000.2012.727240
dc.relation.isbasedonSyla I.: Experimental determination of the state of materials of the D-5 series 2 Landing parachute system after long-term storage. Message 1. Actual state of strength textile materials of the main parachute, Aerospace Engineering and Technology, 2(170), pp. 4-11. https://doi.org/10.32620/aktt.2021.2.01
dc.relation.isbasedonOzimok G.V.: Improvement of expert methods of research of breaking characteristics of materials, Scientific Bulletin, 18(7), 2008, pp. 195-199.
dc.relation.isbasedonKrylova L.O.: The use of thread strength in knitwear, Bulletin of KNUTD, 2, 2012, pp. 79-83.
dc.relation.isbasedonWang Y., Yu W., Wang F.: Experimental evaluation and modified Weibull characterization of the tensile behavior of tri-component elastic-conductive composite yarn, Textile Research Journal, 88(10), 2017, pp. 1138-1149. https://doi.org/10.1177/0040517517698991
dc.relation.isbasedonDSTU 3673-97 (GOST 30580-98). High modulus inorganic and carbon threads. Method for determining the ability to textile processing. Kyiv: State Standard of Ukraine, 1999.
dc.relation.ispartofFibres and Textiles
dc.subjecttextile threadscs
dc.subjectyarnscs
dc.subjecttextile processingcs
dc.subjectwear resistance of yarnscs
dc.subjectbreaking forcecs
dc.subjectbreaking elongationcs
dc.subjectbreakagecs
dc.subjectcomplex methodcs
dc.subjectendurance ratiocs
dc.titleRESEARCH ON THE ABILITY OF YARNS FOR TEXTILE PROCESSINGen
dc.typeArticleen
local.accessopen access
local.citation.epage26
local.citation.spage18
local.facultyFaculty of Textile Engineeringen
local.fulltextyesen
local.relation.issue2
local.relation.volume29
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