An Experimental Study on CLSM Bricks using Flyash and Construction Debris waste

Compressive strength and water absorption of bricks made using marble waste (*H: Highest compressive strength; *L: Lowest compressive strength).

The geopolymer brick having maximum compressive strength was chosen in each molarity and the water absorption test was conduct- ed and variations in weight were calculated..

sediments. The water absorption and compressive strength of the fired bricks in the tunnel kiln. 470.. should be greater than 14.7 MPa and the water absorption should be less

The fresh and hardened properties of light transmitting concrete such as slump flow test, Compressive Strength Test, Water Absorption , Split tensile strength

Fibre Fly Ash bricks are advantageous over conventional clay bricks as per following aspects: Less water absorption, less weight, better finishing, high strength,

The bricks manufactured possess the properties such as neat and even finishing, with negligible water absorption and satisfactory compressive strength in comparison with Foundry

This study is devoted to enhance the compressive strength and water absorption characteristics of mud bricks with the use of cement and lime as stabilizers at

Clay bricks made with laterite soil were tested for analyzing the physical properties of bricks such as Atterberg limit test, compressive strength, water absorption,