Use of Thermomechanical Analysis in the Design of a Composite System with a Low Coefficient of Longitudinal Thermal Expansion for End Gauges

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dc.contributor.authorKroisová Doracs
dc.contributor.authorDvořáčková Štěpánkacs
dc.contributor.authorKůsa Petrcs
dc.date.accessioned2022-01-29T19:07:14Z
dc.date.available12-39-2022en
dc.date.available2022-01-29T19:07:14Z
dc.date.issued2021cs
dc.format.extent9cs
dc.identifier.doi10.21062/mft.2021.063
dc.identifier.issn1213-2489cs
dc.identifier.urihttps://dspace.tul.cz/handle/15240/162504
dc.language.isoengcs
dc.publisherJan-Evangelista-Purkyne-Universitycs
dc.publisher.cityÚstí n. L.cs
dc.relation.ispartofManufacturing Technologyen
dc.relation.urihttps://www.journalmt.com/pdfs/mft/2021/04/13.pdfcs
dc.subjectCarbon fiberscs
dc.subjectEpoxy resinscs
dc.subjectGagescs
dc.subjectGlass transitioncs
dc.subjectRecycling, Coefficient of longitudinal thermal expansioncs
dc.subjectContinuous fiberscs
dc.subjectEpoxycs
dc.subjectEpoxy matricescs
dc.subjectGlass transition temperature Tgcs
dc.subjectmatrixcs
dc.subjectPolymer matricescs
dc.subjectRecycled fiberscs
dc.subjectTemperature rangecs
dc.subjectThermcs
dc.titleUse of Thermomechanical Analysis in the Design of a Composite System with a Low Coefficient of Longitudinal Thermal Expansion for End Gaugesen
dc.titleUse of Thermomechanical Analysis in the Design of a Composite System with a Low Coefficient of Longitudinal Thermal Expansion for End Gaugescs
local.citation.epage502-511cs
local.citation.spage502-511cs
local.identifier.publikace9201
local.relation.issue4cs
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