. "The 7th Central European Congress on Concrete Engineering 2011" . "H\u00E1jek, Petr" . . . . "Lausanne" . "timber-concrete composites; high performance concrete; environmental efficiency"@en . . "4"^^ . . "[15D0C2031C30]" . "21110" . . . "Timber-concrete composite floor structures - environmental study and experimental verification" . . . "Timber-concrete composite floor structures - environmental study and experimental verification" . "Balatonfured" . . "RIV/68407700:21110/11:00185504!RIV12-GA0-21110___" . . . . . . . "RIV/68407700:21110/11:00185504" . "The composite structures based on high performance silicates and wood represent the beneficial alternative to the timber floor structures. Proposed timber-concrete composite floor structure benefits from lower weight of slender HPC or UHPC deck (compared to common RC slab) while improving acoustic parameters and fire safety of the structure (compared to timber floor structure). More over the combination of thin silicate slab and timber beam represents the effective cross-section from the perspective of bending stress. An essential role in the design of structure is played by the connection system between timber and silicate slab. The experimental investigation focuses on different types of timber-concrete glued connections. The comparison of complex LCA of the timber-concrete floor structure with three various floor structures shows the environmental effectiveness of the proposed solution."@en . "2011-09-22+02:00"^^ . "3"^^ . "Fiala, Ctislav" . "The composite structures based on high performance silicates and wood represent the beneficial alternative to the timber floor structures. Proposed timber-concrete composite floor structure benefits from lower weight of slender HPC or UHPC deck (compared to common RC slab) while improving acoustic parameters and fire safety of the structure (compared to timber floor structure). More over the combination of thin silicate slab and timber beam represents the effective cross-section from the perspective of bending stress. An essential role in the design of structure is played by the connection system between timber and silicate slab. The experimental investigation focuses on different types of timber-concrete glued connections. The comparison of complex LCA of the timber-concrete floor structure with three various floor structures shows the environmental effectiveness of the proposed solution." . "fib - f\u00E9d\u00E9ration internationale du b\u00E9ton" . "Kyn\u010Dlov\u00E1, Magdal\u00E9na" . "978-963-313-036-0" . "Timber-concrete composite floor structures - environmental study and experimental verification"@en . "P(GAP104/10/2153)" . . . "Timber-concrete composite floor structures - environmental study and experimental verification"@en . "3"^^ . "235341" .