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References (16)
-
R. Bogue (1947)
The chemistry of Portland cement -
T. Stovall, F. Larrard, M. Buil (1986)
Linear packing density model of grain mixturesPowder Technology, 48
-
H. Kada-Benameur, E. Wirquin, B. Duthoit (2000)
Determination of apparent activation energy of concrete by isothermal calorimetryCement and Concrete Research, 30
-
R. Bogue (1955)
The Chemistry of Portland Cement. Second EditionSoil Science, 79
-
G. Schutter, Luc Taerwe (1996)
Degree of hydration-based description of mechanical properties of early age concreteMaterials and Structures, 29
-
L. D'aloia, G. Chanvillard (2002)
Determining the apparent activation energy of concrete Ea: numerical simulations of the heat of hydration of cementCement and Concrete Research, 32
-
E. Schlangen, J. Mier (1992)
Simple lattice model for numerical simulation of fracture of concrete materials and structuresMaterials and Structures, 25
-
K. Breugel (1991)
Simulation of hydration and formation of structure in hardening cement-based materials -
T. Narasimhan (1999)
Fourier’s heat conduction equation: History, influence, and connectionsProceedings of the Indian Academy of Sciences - Earth and Planetary Sciences, 108
-
G. Lilliu, J. Mier (2003)
3D lattice type fracture model for concreteEngineering Fracture Mechanics, 70
-
E. Schlangen, E. Garboczi (1997)
FRACTURE SIMULATIONS OF CONCRETE USING LATTICE MODELS : COMPUTATIONAL ASPECTSEngineering Fracture Mechanics, 57
-
T. Sedran, F. Larrard (1994)
RENE-LCPC : UN LOGICIEL POUR OPTIMISER LA GRANULARITE DES MATERIAUX DE GENIE CIVIL -
F. Larrard (1999)
Concrete Mixture Proportioning: A Scientific Approach -
E. Martinelli, E. Koenders, A. Caggiano (2013)
A numerical recipe for modelling hydration and heat flow in hardening concreteCement & Concrete Composites, 40
-
Z. Qian, E. Schlangen, G. Ye, K. Breugel (2010)
3D Lattice Fracture Model: Theory and Computer ImplementationKey Engineering Materials, 452-453
-
A. Neville (1968)
Properties of Concrete
- Publisher
- Springer International Publishing
- Copyright
- © Springer International Publishing Switzerland 2015
- ISBN
- 978-3-319-26472-1
- Pages
- 121 –155
- DOI
- 10.1007/978-3-319-26473-8_7
- Publisher site
- See Chapter on Publisher Site
Abstract
[This chapter describes some of the possible modelling approaches for both predicting and controlling the key mechanical properties of Recycled Aggregate Concretes. The chapter is organised in three sections in which the different models applied during the research are described. Particularly, in the last section an innovative modelling methodology is proposed for the case of RAC. The proposed formulations should be considered as a novel conceptual approach capable of considering the key physical and mechanical features characterising the structural behaviour of resulting concrete made out with Recycled Concrete Aggregates.]
Published: Dec 13, 2015
Keywords: Compressive Strength; Packing Density; Coarse Aggregate; Cement Paste; Concrete Mixture