Fracture Properties of Cement Pastes Modified by Fine Ground Ceramic Powder

Pavel Reiterman; Ondřej Holčapek; Kirill Polozhiy; Petr Konvalinka

doi:10.4028/www.scientific.net/AMR.1054.182

Paper Titles

Multiscale Model of Influence of Heat Curing on Fly-Ash Concrete Mixtures
p.162

Utilisation of Fluidised Fly Ash for Reduction of CO₂ Emissions at Portland Cement Production
p.168

Properties of Materials from Activated Fly Ash from Fluidized Burning
p.173

Application of Mixed Ceramic Powder in Cement Based Composites
p.177

Fracture Properties of Cement Pastes Modified by Fine Ground Ceramic Powder
p.182

Influence of Metashale as Cement Replacement on the Hygric Transport Properties of Concrete
p.188

Mechanical and Thermal Properties of Moderate-Strength Concrete with Ceramic Powder Used as Supplementary Cementitious Material
p.194

Utilization of Fine Recycled Aggregate and the Calcareous Fly Ash in CLSM Manufacturing
p.199

Pore Distribution and Water Vapor Diffusion Parameters of Lime Plasters with Waste Brick Powder
p.205

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1054Fracture Properties of Cement Pastes Modified by...

Fracture Properties of Cement Pastes Modified by Fine Ground Ceramic Powder

Abstract:

Paper deals with utilization of fine ground ceramic powder as a supplementary cement addition. Present work follows previous research focused on the basic physical and hygric properties of cement composites with ceramic powder application. Present work introduce rheological, mechanical and fracture properties of cement pastes investigated during maturation at time 7 days. Presented data are added by results of pore characteristic having essential impact to final properties. Obtained data confirm previous assumption of retarding of hydration process, but final fracture properties indicate increased durability of cement pastes with fine ceramic powder addition.

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Periodical:

Advanced Materials Research (Volume 1054)

Pages:

182-187

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1054.182

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Online since:

October 2014

Authors:

Pavel Reiterman*, Ondřej Holčapek, Kirill Polozhiy, Petr Konvalinka

Keywords:

Fine Ground Ceramic Powder, Fracture Properties, Porous Characteristic, Rheology Properties

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