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  • Special industrial application of fiber-cement composites is currently one important issue of concrete industry and research activity. Hydrothermal curing together with using aluminous cement with refractory basalt aggregates and fibers shows high potential for its applications in high temperature. These composite is characterized by compressive strength over 140 MPa and tensile strength in bending 12 MPa (investigated on specimens 40 x 40 x 160 mm). After exposure to temperature 1000 °C these parameters are 60 MPa respective 6 MPa. Achieved values are significantly higher than in the case of laboratory curing condition and there are suitable especially for prefabricated fire resistance cladding or other special application in the industry.
  • Special industrial application of fiber-cement composites is currently one important issue of concrete industry and research activity. Hydrothermal curing together with using aluminous cement with refractory basalt aggregates and fibers shows high potential for its applications in high temperature. These composite is characterized by compressive strength over 140 MPa and tensile strength in bending 12 MPa (investigated on specimens 40 x 40 x 160 mm). After exposure to temperature 1000 °C these parameters are 60 MPa respective 6 MPa. Achieved values are significantly higher than in the case of laboratory curing condition and there are suitable especially for prefabricated fire resistance cladding or other special application in the industry. (en)
  • Special industrial application of fiber-cement composites is currently one important issue of concrete industry and research activity. Hydrothermal curing together with using aluminous cement with refractory basalt aggregates and fibers shows high potential for its applications in high temperature. These composite is characterized by compressive strength over 140 MPa and tensile strength in bending 12 MPa (investigated on specimens 40 x 40 x 160 mm). After exposure to temperature 1000 °C these parameters are 60 MPa respective 6 MPa. Achieved values are significantly higher than in the case of laboratory curing condition and there are suitable especially for prefabricated fire resistance cladding or other special application in the industry. (cs)
Title
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite (en)
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite (cs)
skos:prefLabel
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite (en)
  • Experimental Investigation of Hydrothermal Curing Influence on Mechanical Properties of Fiber-Cement Composite (cs)
skos:notation
  • RIV/68407700:21110/14:00220515!RIV15-GA0-21110___
http://linked.open...avai/riv/aktivita
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  • P(GAP104/12/0791)
http://linked.open...vai/riv/dodaniDat
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  • 15847
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  • RIV/68407700:21110/14:00220515
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  • Tensile strength in bending; compressive strength; dynamic modulus of elasticity; high temperatures; hydrothermal curing condition; autoclave; basalt fibers; aluminous cement. (en)
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  • [38DDBF8A4653]
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  • Marianské Lázně
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  • Plzeň
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  • Experimental Stress Analysis 2014
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http://linked.open...vavai/riv/projekt
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  • Konvalinka, Petr
  • Reiterman, Pavel
  • Holčapek, Ondřej
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number of pages
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  • Výzkumný a zkušební ústav Plzeň s.r.o.
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  • 978-80-261-0376-9
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  • 21110
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