Rudrani Tidke
Cummins College of Engineering for Women (CCEW), Pune
Rudrani Tidke has created this Calculator and 100+ more calculators!
Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
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11 Other formulas that you can solve using the same Inputs

Area of the Supporting Concrete when Nominal Bearing Strength is Given
Area of supporting concrete=Area of base plate*((Nominal bearing strength/(Compressive strength*0.85))^2) GO
Area of the Base Plate when Nominal Bearing Strength is Given
Area of base plate=Area of supporting concrete/((Nominal bearing strength/(Compressive strength*0.85))^2) GO
Nominal Bearing Strength of the Concrete
Nominal bearing strength=Compressive strength*0.85*sqrt(Area of supporting concrete/Area of base plate) GO
Critical Slenderness Ratio for Aluminium Columns
Slenderness Ratio=sqrt(51000000/(Allowable Load/Cross sectional area)) GO
Critical Slenderness Ratio for Cast Iron Columns
Slenderness Ratio=(12000-(Allowable Load/Cross sectional area))/60 GO
Shaft Resistance when Allowable Load and Safety Factor is Given
Shaft Resistance=Factor of Safety*Allowable Load-Toe Resistance GO
Toe Resistance when Allowable Load and Safety Factor is Given
Toe Resistance=Allowable Load*Factor of Safety-Shaft Resistance GO
Smallest Moment of Inertia Allowable at Worst Section for Wrought Iron
Area Moment Of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Medium Carbon Steel
Moment of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Low Carbon Steel
Moment of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Cast Iron
Moment of Inertia=Allowable Load*(Length of column^2) GO

Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given Formula

Allowable stress in vertical reinforcement=(Allowable Load/Gross area of column-0.25*Compressive strength)/Area ratio of cross sectional area to gross area
f'<sub>s</sub>=(Q <sub>a</sub>/A<sub>g</sub>-0.25*f'<sub>c</sub>)/p<sub>g</sub>
More formulas
Total Allowable Axial Load for Short Columns GO
Gross Cross-Sectional Area of Column when Total Allowable Axial Load is Given GO
Concrete Compressive Strength when Total Allowable Axial Load is Given GO
Spiral Volume to Concrete-Core Volume Ratio GO
Spiral Reinforcement Yield Strength when Spiral Volume to Concrete Core Volume Ratio is Given GO

What is maximum allowable stress?

The allowable stress or allowable strength is the maximum stress (tensile, compressive or bending) that is allowed to be applied on a structural material. The allowable stresses are generally defined by building codes, and for steel, and aluminum is a fraction of their yield stress (strength).

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 (Ag), Compressive strength (f'c) and Area ratio of cross sectional area to gross area (pg) 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.

FAQ

What is Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given?
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) and is represented as f's=(Q a/Ag-0.25*f'c)/pg or Allowable stress in vertical reinforcement=(Allowable Load/Gross area of column-0.25*Compressive strength)/Area ratio of cross sectional area to gross area. Allowable load is the maximum working load that can be applied on the structure, Gross area of column is the total area enclosed by the column, Compressive strength is is the capacity of a material or structure to withstand loads tending to reduce size, as opposed to which withstands loads tending to elongate and Area ratio of cross sectional area to gross area is the ratio of cross-sectional area of vertical reinforcing steel to gross area of column.
How to calculate Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given?
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) is calculated using 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 Allowable Stress in Vertical Concrete Reinforcing when Total Allowable Axial Load is Given, you need Allowable Load (Q a), Gross area of column (Ag), Compressive strength (f'c) and Area ratio of cross sectional area to gross area (pg). With our tool, you need to enter the respective value for Allowable Load, Gross area of column, Compressive strength and Area ratio of cross sectional area to gross area and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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