How to Calculate Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given?
Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given calculator uses Allowable stress in vertical reinforcement=(Allowable Load/Gross area of column-0.25*Compressive strength)/Area ratio of cross sectional area to gross area to calculate the Allowable stress in vertical reinforcement, The Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given formula is defined as the maximum stress (tensile, compressive or bending) that is allowed to be applied on a structural material and it is equal to 40 percent of the minimum yield strength, but not to exceed 30,000 lb/sq.in(207 MPa). Allowable stress in vertical reinforcement and is denoted by f'_{s} symbol.
How to calculate Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given using this online calculator? To use this online calculator for Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given, enter Allowable Load (Q _{a}), Gross area of column (A_{g}), Compressive strength (f'_{c}) and Area ratio of cross sectional area to gross area (p_{g}) and hit the calculate button. Here is how the Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given calculation can be explained with given input values -> 156.25 = (10000/8E-06-0.25*784.531999999945)/8.