000002072 001__ 2072
000002072 005__ 20141118153444.0
000002072 04107 $$acze
000002072 046__ $$k2013-05-27
000002072 100__ $$aUKRAINCZYK, Neven
000002072 24500 $$aSIMULATION OF POZZOLAN BLENDED CEMENT HYDRATION

000002072 24630 $$n1.$$pProceedings of the First International Conference on Concrete Sustainability
000002072 260__ $$bJapan Concrete Institute, Tokyo
000002072 506__ $$arestricted
000002072 520__ $$2eng$$aPozzolan blended cement hydration reactions, the most promising route towards the sustainability of cementitious materials, have been simulated by Hymostruc, a numerical model for cement hydration and microstructure development. The 3D model calculates the progress of the hydration process as a function of the particle size distribution, water cement ratio, morphological development and chemistry. The paper presents a comparison of numerical results with systematic literature experimental data and demonstrates the potential to use particle-based numerical simulation models (growing spheres) to simulate hydration reactions in blended cement systems.

000002072 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000002072 653__ $$apozzolanic reaction, hydration kinetics, blended cement, numerical modeling.

000002072 7112_ $$aFirst International Conference on Concrete Sustainability$$cTokyo (JP)$$d2013-05-27 / 2013-05-29$$gICCS13
000002072 720__ $$aUKRAINCZYK, Neven$$iBREUGEL, Klaas VAN$$iKOENDERS, Eduard A. B.
000002072 8560_ $$ffischerc@itam.cas.cz
000002072 8564_ $$s1332679$$uhttp://invenio.itam.cas.cz/record/2072/files/S1-3-3.pdf$$y
             Original version of the author's contribution as presented on CD, .
            
000002072 962__ $$r2053
000002072 980__ $$aPAPER