The research article constitutes distinct approach of usage of waste materials in redesigning of engineering bricks. Due to the expanding population, a high demand for brick has been placed exclusively on the building material industry, resulting in a chronic shortage of red clay bricks. The challenge for civil engineers is how waste can be converted to useful building and construction material. This is a radical step towards sustainable and ecological conservation of natural resource. Moreover, this also contributes to the depletion of pollution and safeguard of landfills. The study involves establishment of limitation of plastic waste in a standard brick to achieve better performance and to avoid shrinkage and cracks. The properties of waste bricks were tested such as density, compressive strength, water absorption, Impact value, efflorescence, rebound hammer, penetration value and shrinkage. The article involves the sample in two categories; first category involves the cement-clay bricks and the second category have the plastic waste brick with 20 % and 25 % plastic content. The maximum strength of 20WCB bricks is 52 MPa. The plastic brick is penetrated around 7 mm after 32 min of complete setting. Around 4 % water absorption is seen in waste plastic bricks. It has been seen that the strength value of plastic brick with other masonry bricks are much better. The result demonstrates that by including smash type plastic waste into bricks can result in a significant improvement in brick performance. The positive perspective is favourable to furnish waste and endurance of solutions in construction industry.