PROPERTIES OF PARACHUTE FABRICS FROM POLYAMIDE AND POLYESTER MATERIALS

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dc.contributor.authorMILITKÝ, JIŘÍ
dc.contributor.authorWIENER, JAKUB
dc.contributor.authorKŘEMENÁKOVÁ, DANA
dc.contributor.authorMISHRA, RAJESH
dc.contributor.organizationTechnická univerzita v Liberci
dc.date.accessioned2023-11-02T09:11:44Z
dc.date.available2023-11-02T09:11:44Z
dc.description.abstractTraditional parachute fabrics are composed from PA 66 (nylon type) multifilament yarns. They are resistant against high frequency repeat deformation but they are able to absorb water which is not optimal for use in different climatic conditions. Challenge is to create parachute fabrics made of PES multifilament yarns which are more versatile. Main aim of this work is to investigate influence of parachute fabric composition and construction characteristics on real end use properties. The relationships based on the prediction of bulk densities were used to calculate the volume porosity. The morphology of the parachute fabrics was evaluated using scanning electron microscopy. Mechanical and dynamic mechanical properties of parachute fabric Ortex made from multifilament PA 66 and PES yarns by Sky Paragliders company are compared.cs
dc.formattext
dc.format.extent8 stran
dc.identifier.doi10.15240/tul/008/2023-4-001
dc.identifier.issn1335-0617
dc.identifier.urihttps://dspace.tul.cz/handle/15240/173213
dc.language.isocscs
dc.publisherTechnical University of Liberec
dc.publisher.abbreviationTUL
dc.relation.isbasedonJohari H., Desabrais K.J.: Stiffness scaling for solid cloth parachutes, Journal of Aircraft, 40(4), 2003, pp. 631-638. https://doi.org/10.2514/2.3166
dc.relation.isbasedonCockrell D.J.: The Aerodynamics of Parachutes, Cambridge: AGARD, 1987.
dc.relation.isbasedonEricksen R.H.., et al.: Deflection-force measurements and observations on Kevlar 29 parachute fabrics, Textile Research Journal, 62(11), 1992, pp. 628-638. https://doi.org/10.1177/004051759206201102
dc.relation.isbasedonShi Q., et al.: On the verification and validation of a spring fabric for modeling parachute inflation, Journal of Fluids and Structures, 58, 2015, pp. 20–39. https://doi.org/10.1016/j.jfluidstructs.2015.06.014
dc.relation.isbasedonKiryukhin S.M., Lazunina Yu.N.: Assessment of strength reliability of polyamide parachute fabrics, Fibre Chemistry, 46, 2014, pp. 56-58. https://doi.org/10.1007/s10692-014-9560-2
dc.relation.isbasedonCitoglu F., Esi B.: Parachute fabric and its manufacturing process, International Journal of Science, Environment and Technology, 6(5), 2017, pp. 3214 – 3224.
dc.relation.isbasedonBaker A., Swallow J. E.: Light transmission and air flow through nylon parachute fabrics, Journal of the Textile Institute Transactions, 47, 1956, T102-T109. https://doi.org/10.1080/19447027.1956.10750380
dc.relation.isbasedonMilitký J., Venkataraman M., Mishra R.: The chemistry, manufacture, and tensile behavior of polyamide fibers, In Bunsell A. R. ed.: Handbook of Properties of Textile and Technical Fibres, Elsevier, 2018.
dc.relation.isbasedonMilitký J.: Tensile failure of polyester fibers, In Bunsell A. R. ed.: Handbook of Properties of Textile and Technical Fibres, Elsevier, 2018.
dc.relation.isbasedonKaynak H.K., Babaarslan O.: Polyester microfilament woven fabrics, In Han-Yong J. ed.: Woven Fabrics, Rjeka, 2012
dc.relation.isbasedonKřemenáková, D. et al.: Air permeability of parachute fabrics, In Preparation.
dc.relation.ispartofFibres and Textiles
dc.subjectParachute fabricscs
dc.subjectMorphologycs
dc.subjectPorositycs
dc.subjectMechanical propertiescs
dc.subjectCalenderingcs
dc.titlePROPERTIES OF PARACHUTE FABRICS FROM POLYAMIDE AND POLYESTER MATERIALSen
dc.typeArticleen
local.accessopen access
local.citation.epage10
local.citation.spage3
local.facultyFaculty of Textile Engineeringen
local.fulltextyesen
local.relation.issue4
local.relation.volume30
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