EFFECT OF MECHANICAL CRIMP OF JUTE FIBRE ON THE THERMAL PROPERTIES OF WOVEN FABRICS

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dc.contributor.authorAkter, Shilpi
dc.contributor.authorMotalab, Mohammad Abdul
dc.contributor.authorHelali, Maksud
dc.contributor.organizationTechnická univerzita v Liberci
dc.date.accessioned2022-03-25T09:02:24Z
dc.date.available2022-03-25T09:02:24Z
dc.description.abstractThe aim of this paper is to find the effect of mechanical crimp of jute fibre on the thermal properties of woven jute fabrics. In this study, crimp box and gear crimping method were used to impart mechanical crimp into jute sliver. Crimps were divulged to enhance the cohesion between fibres that make it suitable for spinning. Jute yarns were produced by inserting a different number of crimps and woven fabrics were produced by using these yarns. Fabric thickness, porosity, air permeability and thermal conductivity tests were done according to standard method and found that fabric porosity, air permeability and thermal conductivity of the fabric decreased and fabric thickness increased with the increased number of crimps and fabrics from gear crimping method showed better effect than that of crimp box method. The study on jute woven fabric will provide quantitative experimental data for potential applications with advantages of lightweight, cost-effective, easy to manufacture, biodegradable and excellent mechanical properties.cs
dc.formattext
dc.format.extent7 stran
dc.identifier.doi10.15240/tul/008/2022-1-001
dc.identifier.issn1335-0617
dc.identifier.urihttps://dspace.tul.cz/handle/15240/163504
dc.language.isocscs
dc.publisherTechnical University of Liberec
dc.publisher.abbreviationTUL
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dc.relation.ispartofFibres and Textiles
dc.subjectmechanical crimpcs
dc.subjectcrimp box method (CBM)cs
dc.subjectgear crimp method (GCM)cs
dc.subjectfabric porositycs
dc.subjectair permeability and thermal conductivitycs
dc.titleEFFECT OF MECHANICAL CRIMP OF JUTE FIBRE ON THE THERMAL PROPERTIES OF WOVEN FABRICSen
dc.typeArticleen
local.accessopen access
local.citation.epage9
local.citation.spage3
local.facultyFaculty of Textile Engineeringen
local.fulltextyesen
local.relation.issue1
local.relation.volume29
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