Production of Structural Lightweight Concrete Using Recycled Crushed Clay Brick Aggregates
ERJ faculty of engineering • 2016
Publication Information
Authors
Kareem S. Abdallah*, Osama R. Al Hariri, M.S. El Sayed
Keywords
Lightweight concrete;Compressive strength;Permeability;Modulus of elasticity.
Journal
ERJ faculty of engineering
Publisher
Not Available
Volume
2016
Issue
Not Available
Pages
Not Available
publication.type
Local
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The reuse of construction and demolition wastes, especially crushed clay bricks (CCB), represents a major contribution to the environment. Due to the nature of clay bricks, it can be considered as source of fine and coarse aggregate to produce structural lightweight concrete (LWC).
In this paper, the clay brick is crushed into the sizes of fine and coarse aggregate for concrete aiming to produce structural lightweight concrete. On achieving the targeted concrete properties, the physical and mechanical properties of the obtained concrete are studied.
The results indicated that lightweight concrete can be produced by utilizing CCB as coarse and fine aggregate. Limited combination of CCB and natural aggregate can yield structural LWC, which can be used in structural purposes. The attained LWC mixes have lower modulus of elasticity, higher permeability and lower strength than the corresponding control concrete mixes.
In this paper, the clay brick is crushed into the sizes of fine and coarse aggregate for concrete aiming to produce structural lightweight concrete. On achieving the targeted concrete properties, the physical and mechanical properties of the obtained concrete are studied.
The results indicated that lightweight concrete can be produced by utilizing CCB as coarse and fine aggregate. Limited combination of CCB and natural aggregate can yield structural LWC, which can be used in structural purposes. The attained LWC mixes have lower modulus of elasticity, higher permeability and lower strength than the corresponding control concrete mixes.
Staff Members - Benha University