Fracture Mechanical Behavior of Aggregate–Cement Matrix Interfaces
- 1 November 1995
- journal article
- Published by American Society of Civil Engineers (ASCE) in Journal of Materials in Civil Engineering
- Vol. 7 (4) , 199-203
- https://doi.org/10.1061/(asce)0899-1561(1995)7:4(199)
Abstract
Cracks in concrete propagate preferentially along cement-aggregate interfaces. Therefore, these interfaces act like weak links. The fracture mechanical behavior of the interfaces can be described quantitatively by means of the specific fracture energy G F , which is obtained from the load-displacement curve of the wedge-splitting test. The G F values of the selected sandstone-matrix and limestone-matrix composites varied between 6 and 18 N/m, although the specific fracture energy of the matrix was about 80 N/m; this means that the resistance against crack propagation of interfaces between aggregate surfaces and matrix is only 1/6th of the cement-matrix resistance. This demonstrates the different behavior of the interfaces compared to the matrix. Testing composite specimens of different dimensions showed that there is only a small size effect in the fracture surface area range of 22.5–85 cm 2 (ligament length approximately 4.8–8.4 cm). In the range of 22.5–45 cm 2 (ligament length approximately 4.8 cm), an...Keywords
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