Mathematical Models Evaluation for High Rise Structure thru Reconditioned Substances Strong suit parameters
DOI:
https://doi.org/10.47392/irjash.2021.237Keywords:
Mathematical Model, Mechanical Properties of Concrete, Regression Equation & Curve, Fresh & Harden properties of Concrete, Glass and Rubber Mixed ConcreteAbstract
This article aims to present a new and simple mathematical model that can determine the optimal position of truss reinforcement systems in high-rise buildings. Displacements caused by lateral loads have the least stress and deformation in the elements and construction. From the beginning of its construction to the present, concrete has played a considerable role in architecture. The mechanical properties of concrete, such as compressive strength, elastic modulus, and different tensile strength (flexural strength, inherent tensile strength, and tensile strength per unit), are essential aspects when calculating and determining the size of concrete structures. Compressive strength and tensile strength are important parameters to measure the quality of concrete structures. The design criteria of concrete structures depend on the compressive strength of concrete in most cases. It is not designed for direct loading. Tensile strength should be considered because it has a significant effect on stress cracking. In addition, the tensile strength of concrete needs to be determined.
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