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Statements

Subject Item
n2:RIV%2F70883521%3A28140%2F14%3A43871625%21RIV15-MSM-28140___
rdf:type
skos:Concept n15:Vysledek
dcterms:description
Radiation processing involves the use of natural or manmade sources of high energy radiation on an industrial scale. The principle of radiation processing is the ability of high energy radiation to produce reactive cations, anions and free radicals in materials. The industrial applications of the radiation processing of plastics and composites include polymerization, cross-linking, degradation and grafting. Radiation processing mainly involves the use of either electron beams from electron accelerators or gamma radiation from Cobalt-60 sources. The PBT polybutylene terephthalate and PA6 polyamide 6 tested showed significant changes of temperature stability and mechanical properties after irradiation. From this point-of-view, new applications could also be seen in areas with service temperatures higher than their former melting point. The comparison of the temperature stability and mechanical properties of irradiated and non-irradiated PBT and PA6 are presented in this paper. Radiation processing involves the use of natural or manmade sources of high energy radiation on an industrial scale. The principle of radiation processing is the ability of high energy radiation to produce reactive cations, anions and free radicals in materials. The industrial applications of the radiation processing of plastics and composites include polymerization, cross-linking, degradation and grafting. Radiation processing mainly involves the use of either electron beams from electron accelerators or gamma radiation from Cobalt-60 sources. The PBT polybutylene terephthalate and PA6 polyamide 6 tested showed significant changes of temperature stability and mechanical properties after irradiation. From this point-of-view, new applications could also be seen in areas with service temperatures higher than their former melting point. The comparison of the temperature stability and mechanical properties of irradiated and non-irradiated PBT and PA6 are presented in this paper.
dcterms:title
Temperature stability of construction polymers after radiation cross-linking Temperature stability of construction polymers after radiation cross-linking
skos:prefLabel
Temperature stability of construction polymers after radiation cross-linking Temperature stability of construction polymers after radiation cross-linking
skos:notation
RIV/70883521:28140/14:43871625!RIV15-MSM-28140___
n4:aktivita
n19:S n19:P
n4:aktivity
P(ED2.1.00/03.0089), P(TA03010724), S
n4:dodaniDat
n12:2015
n4:domaciTvurceVysledku
n5:9694846 n5:3308294 n5:5993393 n5:1371509 n5:4948564
n4:druhVysledku
n17:D
n4:duvernostUdaju
n7:S
n4:entitaPredkladatele
n10:predkladatel
n4:idSjednocenehoVysledku
49744
n4:idVysledku
RIV/70883521:28140/14:43871625
n4:jazykVysledku
n14:eng
n4:klicovaSlova
temperature stability.; cross-linking; irradiation; Polymers
n4:klicoveSlovo
n8:Polymers n8:cross-linking n8:temperature%20stability. n8:irradiation
n4:kontrolniKodProRIV
[E65DDAE5BC4A]
n4:mistoKonaniAkce
Santorini Island
n4:mistoVydani
Rhodes
n4:nazevZdroje
Proceedings Latest Trends on Systems
n4:obor
n11:JP
n4:pocetDomacichTvurcuVysledku
5
n4:pocetTvurcuVysledku
7
n4:projekt
n9:ED2.1.00%2F03.0089 n9:TA03010724
n4:rokUplatneniVysledku
n12:2014
n4:tvurceVysledku
Maňas, David Navrátil, Jan Holík, Zdeněk Maňas, Miroslav Bednařík, Martin Mizera, Aleš Staněk, Michal
n4:typAkce
n21:EUR
n4:zahajeniAkce
2014-07-17+02:00
s:numberOfPages
4
n6:hasPublisher
Europment
n20:isbn
978-1-61804-243-9
n16:organizacniJednotka
28140