Effect of morphological characteristics of aggregate on the performance of pervious concrete

The aggregate morphology plays a vital role in the performance of pervious concrete. This study investigates the effect of aggregate morphology on the mechanical properties and permeability characteristics of pervious concrete. Sphericity was selected as the index for describing the aggregate morphological characteristics using computed tomography (CT) and digital image processing (DIP) technology. Mechanical and single-phase seepage tests and simulations were conducted by Avizo software. The results show that the aggregates with more edges and corners are more favorable for forming an interlocking skeleton. With the addition of angular rich aggregates, the internal void distribution becomes more uniform, the equivalent pore size decreases, and the loadbearing capacity increases. The compatibility of particle morphology has an important influence on the properties of mixtures. As aggregate sphericity rises, the number of seepage paths reduces, the curvature of seepage channels improves, and the seepage velocity decreases. Based on the test results, the mechanical properties and permeability characteristics of pervious concrete can be optimized depending on engineering requirements by regulating the aggregate morphology.

Automated summary

The effect of aggregate morphology on the mechanical properties and permeability characteristics of pervious concrete was investigated. Sphericity was used as an index to describe the aggregate morphology, and tests and simulations were conducted. The results show that aggregates with more edges and corners are favorable for forming an interlocking skeleton and improve the loadbearing capacity. The compatibility of particle morphology has an important influence on the properties of mixtures, such as the seepage velocity.