000002175 001__ 2175
000002175 005__ 20141118153440.0
000002175 04107 $$acze
000002175 046__ $$k2013-05-27
000002175 100__ $$aDESTRÉE, Xavier
000002175 24500 $$aREDUCING CO2 EMISSIONS OF CONCRETE SLAB CONSTRUCTIONS WITH THE PRIMECOMPOSITE SLAB SYSTEM

000002175 24630 $$n1.$$pProceedings of the First International Conference on Concrete Sustainability
000002175 260__ $$bJapan Concrete Institute, Tokyo
000002175 506__ $$arestricted
000002175 520__ $$2eng$$aPrimeComposite, a steel fiber reinforced concrete (SFRC) containing proprietary additives to control hygral shrinkage, provides significant reductions in CO2 emissions per square meter and improved performance over traditional slab on grade systems. This paper describes the development of the PrimeComposite system including the structural design approach, which is based upon full-scale mechanical testing results presented here. A typical PrimeComposite slabs on grade is 10 cm thick with single-casting (jointless) areas of up to 6500 m2. At this thickness, rack system loads of 140 kN (back-to-back leg loads) are safely supported.

000002175 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000002175 653__ $$asteel fiber, shrinkage, jointless slabs, durability, carbon footprint

000002175 7112_ $$aFirst International Conference on Concrete Sustainability$$cTokyo (JP)$$d2013-05-27 / 2013-05-29$$gICCS13
000002175 720__ $$aDESTRÉE, Xavier$$iPEASE, Brad J.
000002175 8560_ $$ffischerc@itam.cas.cz
000002175 8564_ $$s981535$$uhttp://invenio.itam.cas.cz/record/2175/files/S3-2-1.pdf$$y
             Original version of the author's contribution as presented on CD, .
            
000002175 962__ $$r2053
000002175 980__ $$aPAPER