Comparative Analysis of R.C.C. Structure using CLC Blocks with Burnt Clay Bricks |
Author(s): |
Rahul Verma , MAHAKAL INSTITUTE OF TECHNOLOGY AND MANAGEMENT; Dr J N Vyas, MAHAKAL INSTITUTE OF TECHNOLOGY AND MANAGEMENT |
Keywords: |
Cellular Lightweight Blocks (CLC Blocks), Burnt Clay Bricks, Autoclaved Aerated Concrete Blocks (AAC), Construction Cost, Eco-Friendly |
Abstract |
A building can be defined as an enclosed structure intended for human occupancy. Constructions work can be seen in almost all the developing countries. With the increases in material cost in the construction work, there is a need to find more cost saving alternatives so as to maintain the cost of construction houses , multi storey etc, which can be affordable to people. In the manufacturing of burnt clay bricks, smoke evolved at a great extent and also some toxic gases which can harm an environment. So as to overcome with all these problem, Cellular lightweight concrete blocks are used which is more economical and eco-friendly. So as to overcome with all these problem cellular lightweight concrete blocks are used which is more economical and eco-friendly because the energy required for the production of cellular light weight concrete blocks is only a fraction as compared to the production of burnt clay bricks and emits no pollutants and creates no toxic products. Cellular light weight concrete blocks are light in weight which contain mixture of cement, potable water, Fly ash, and foaming agent. This project presents analysis and comparison of building for G+12 residential building by using Cellular lightweight concrete blocks at the replacement of burnt clay bricks. Analysis has been carried out by using burnt clay bricks and Cellular lightweight concrete blocks for different densities. Overall modelling and analysis is done by using STAAD- Pro software. By using cellular lightweight concrete blocks the overall cost of construction is reduce and it will be safe and economical in earthquake forces also. |
Other Details |
Paper ID: IJSRDV7I50215 Published in: Volume : 7, Issue : 5 Publication Date: 01/08/2019 Page(s): 289-293 |
Article Preview |
|
|