Abstract
Interlocking brick masonry has quickly acquired acceptance as a viable alternative to traditional bricks for building residential structures in a number of foreign nations. Making Interlocking bricks lightweight, inexpensive, and better able to withstand hostile situations is never easy. This research presents the findings of an associate degree experimental inquiry that tested the compressive strength, water absorption, and density of materials made up of sand, fly ash, cement, and rice husk in various percentages. The experimental results were compared to those of regular Fly Ash brick and interlocking brick, which were determined to be robust enough for use in the construction of sustainable structures and durable in hostile conditions.Outcomes of this paper main focus is on finding ways to make interlocking bricks stronger in compression without sacrificing their economic value.
Keywords- Concrete replacement, Fine aggregate , Machining waste
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