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Statements

Subject Item
n2:RIV%2F46747885%3A24210%2F14%3A%230006373%21RIV15-MSM-24210___
rdf:type
skos:Concept n8:Vysledek
rdfs:seeAlso
http://www.engmech.cz/2014/im/im/page/proceedings
dcterms:description
A correlation between increase in mechanical strength and the microstructure reliability of fabric reinforced geo-composite is established in elevated temperature range. The mechanical strength of the fabric reinforced geo-composite is investigated at elevated temperature in terms of physical, fire testing and thermal conductivity. The strength of carbon based geo-polymer increased towards higher temperature that strongly correlated with development of various microstructures. Fire testing was conducted on 15 mm thick panels with surface exposure of region 100 x 100 mm. The fires rating more than half an hour were achieved with resistance to shrinkage cracking exhibited as important parameter. The microstructure of geo-composite shows large pores towards 600 ºC, that indicated lower in mechanical strength. On increasing the temperature, microstructure of carbon based geo-composite shows oxidized layer and very homogenous layer with less porosity. As a result the mechanical strength increases on increasing the temperature and developing oxidized layer. Fiber reinforced composites may be considered as an alternative to improve flexural strength and fracture toughness at elevated temperature. The carbon reinforced geo-composite proves as one of the suitable candidate for the high temperature applications such as thermal barrier and fire resistant panels. A correlation between increase in mechanical strength and the microstructure reliability of fabric reinforced geo-composite is established in elevated temperature range. The mechanical strength of the fabric reinforced geo-composite is investigated at elevated temperature in terms of physical, fire testing and thermal conductivity. The strength of carbon based geo-polymer increased towards higher temperature that strongly correlated with development of various microstructures. Fire testing was conducted on 15 mm thick panels with surface exposure of region 100 x 100 mm. The fires rating more than half an hour were achieved with resistance to shrinkage cracking exhibited as important parameter. The microstructure of geo-composite shows large pores towards 600 ºC, that indicated lower in mechanical strength. On increasing the temperature, microstructure of carbon based geo-composite shows oxidized layer and very homogenous layer with less porosity. As a result the mechanical strength increases on increasing the temperature and developing oxidized layer. Fiber reinforced composites may be considered as an alternative to improve flexural strength and fracture toughness at elevated temperature. The carbon reinforced geo-composite proves as one of the suitable candidate for the high temperature applications such as thermal barrier and fire resistant panels.
dcterms:title
CORRELATION BETWEEN ENHANCED MECHANICAL STRENGTH AND MICROSTRUCTURE RELIABILITY OF GEO-COMPOSITE CORRELATION BETWEEN ENHANCED MECHANICAL STRENGTH AND MICROSTRUCTURE RELIABILITY OF GEO-COMPOSITE
skos:prefLabel
CORRELATION BETWEEN ENHANCED MECHANICAL STRENGTH AND MICROSTRUCTURE RELIABILITY OF GEO-COMPOSITE CORRELATION BETWEEN ENHANCED MECHANICAL STRENGTH AND MICROSTRUCTURE RELIABILITY OF GEO-COMPOSITE
skos:notation
RIV/46747885:24210/14:#0006373!RIV15-MSM-24210___
n4:aktivita
n15:O
n4:aktivity
O
n4:dodaniDat
n5:2015
n4:domaciTvurceVysledku
n9:3777022 Samal, Sneha n9:8675481 Than Nhan, Phan
n4:druhVysledku
n19:D
n4:duvernostUdaju
n13:S
n4:entitaPredkladatele
n10:predkladatel
n4:idSjednocenehoVysledku
8998
n4:idVysledku
RIV/46747885:24210/14:#0006373
n4:jazykVysledku
n18:eng
n4:klicovaSlova
mechanical Strength; geo-composite; geo-polymer; carbon fabric; high temperature
n4:klicoveSlovo
n6:geo-composite n6:geo-polymer n6:high%20temperature n6:mechanical%20Strength n6:carbon%20fabric
n4:kontrolniKodProRIV
[C61021896258]
n4:mistoKonaniAkce
Svratka
n4:mistoVydani
Brno
n4:nazevZdroje
Engineering Mechanics 2014
n4:obor
n17:JI
n4:pocetDomacichTvurcuVysledku
4
n4:pocetTvurcuVysledku
4
n4:rokUplatneniVysledku
n5:2014
n4:tvurceVysledku
Samal, Sneha Marvalová, Bohdana Petríková, Iva Than Nhan, Phan
n4:typAkce
n16:EUR
n4:zahajeniAkce
2014-01-01+01:00
s:issn
1805-8248
s:numberOfPages
4
n12:hasPublisher
Vysoké učení technické v Brně
n21:isbn
978-80-214-4871-1
n11:organizacniJednotka
24210