Cement is determined in building and structural designing ventures for a few reasons, once in a while cost; in some cases pace of development or compositional appearance; however one of solid's major natural advantages is its execution in flame, which may be disregarded in the race to consider all the variables influencing configuration decisions. Investigations into the conduct of standard and superior concrete and solid structures at high temperatures are coming to development at both the exploratory and mechanical levels with a few universal community oriented endeavors having been incited by issues identified with flame introduction in structures and passages and by concerns over the conduct of warmed solid in atomic reactors. Concrete can be presented to temperatures from encompassing up to dissolving – in overabundance of 1000°C. All through this temperature range, micro structural physical and concoction changes occur which impact the material's warm, hydra and mechanical properties. It is crucial that solid structures are intended to withstand above encompassing administration and mischance temperature outings without losing their capacity and burden bearing limit, and that the impact of warmth is comprehended at both the material and the basic level.