论文信息 - Shrinkage microcracking in cement-based materials with low water-cement ratio

Shrinkage microcracking in cement-based materials with low water-cement ratio

This paper deals with shrinkage microcracking due to internal restraints in high-strength cement-based materials. The two types of internal restraints that have been studied are restraint of the aggregate particles and self-restraining due to differential shrinkage in a drying specimen. For a number of reasons it is very difficult to detect autogenous shrinkage microcracks in the bulk of concrete using destructive microscopy techniques. However, in this paper a destructive microscopy method is described, which allows to detect autogenous microcracks, provided that the aggregate content is chosen in such way that the autogenous microcracks form a completely interconnected network. The mixtures studied are not actual concretes, but nevertheless their autogenous shrinkage microcracks patterns can be used to validate numerical models that predict shrinkage and cracking of cement-based materials. The drying shrinkage microcracking behaviour of these cement-based materials with ‘manipulated’ aggregate content has also been studied.

J. Mier | P. Lura | J. Bisschop

[1] J.G.M. van Mier,et al. How to study drying shrinkage microcracking in cement-based materials using optical and scanning electron microscopy? , 2002 .

[2] Pietro Lura,et al. Effect of curing temperature and type of cement on early-age shrinkage of high-performance concrete , 2001 .

[3] J. Mier,et al. Environmental Scanning Electron Microscopy as a Tool to Study Shrinkage Microcracks in Cement-Based Materials , 1999 .

[4] Eduardus A. B. Koenders,et al. Simulation of volume changes in hardening cement-based materials : proefschrift , 1997 .

[5] J. Marchand,et al. Microscopic observation of cracks in concrete — A new sample preparation technique using dye impregnation , 1996 .

[6] Hamlin M. Jennings,et al. Observations of microcracking in cement paste upon drying and rewetting by environmental scanning electron microscopy , 1996 .

[7] H. C. Gran. Fluorescent liquid replacement technique. A means of crack detection and water:Binder ratio determination in high strength concretes , 1995 .

[8] Per Goltermann,et al. Mechanical Predictions of Concrete Deterioration; Part 2: Classification of Crack Patterns , 1995 .

[9] J. Ollivier,et al. A non destructive procedure to observe the microcracks of concrete by scanning electron microscopy , 1985 .

[10] Chao-Lung Hwang,et al. Drying shrinkage of portland cement pastes I. Microcracking during drying , 1984 .