Influences of matrix strength and weak planes on fracture response of recycled aggregate concrete

The rare behaviours of coneses me with natural aggregate and recycled crarse aggregate (RCA) derived ching cld concrete are compared. The performance, are evaluated using concrete proportioned for different compressive strengths. The RCA from crushed old concrete produces a composite aggregate with mortar and aggregate phases. An examination of the RCA shows pre existing cracks in the aggregate phase. Crack propagation and crack opening profiles in the fracture response of concrete beams are evaluated using the Digital Image Correlation (DIC) technique. The displacement profiles across the beam obtained using DIC are evaluated to understand the crack growth in the concrete. The cohesive stress response and an energy measure determined from the fracture test are related to physical observations of the fracture surface. The crack path in the concrete and the tiltion of the different inter faces depend on the strength of the matrix surrounding the aggregate. In concrete with lower cementitious and higher water contents, the new mortar interface with RCA and the pre existing cracks in the RCA contribute to the fracture surface in the RCA. While a larger face safer i created In concrete made with RCA, the energy measure and the cohesive stress determined from the fracture test are lows. In concrete proportioned for higher compressive strength, there is a densification of the RCA mortar interface and the fracture plane is produced through the aggregates. The pre-existing cracks in the RCA create weak planes, which contribute to the fracture surface created. Improving the mortar RCA interface does not result in an improvement in tensile strength or fracture claracteristics since there is also a significant contri- bution of the weak planes in the aggregate phase of RCA to the failure surface. The measured fracture surface area does not correlate with the energy measure from fracture test response.