FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Formula

Fx Copy

LaTeX Copy

Allowable Stress in Vertical Reinforcement is equal to 40 percent of the minimum yield strength, but not to exceed 30,000 lb/sq.in(207 MPa). Check FAQs

f' s = \frac{\frac{P allow}{A g} - 0.25 \cdot f' c}{p g}

f'_s - Allowable Stress in Vertical Reinforcement?P_allow - Allowable Load?A_g - Gross Area of Column?f'_c - Specified Compressive Strength at 28 Days?p_g - Area Ratio of Cross Sectional Area to Gross Area?

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Example

With values

With units

Only example

Here is how the Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load equation looks like with Values.

Here is how the Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load equation looks like with Units.

Here is how the Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load equation looks like.

3.995 = \frac{\frac{16}{500} - 0.25 \cdot 80}{8.01}

3.995N/mm² = \frac{\frac{16kN}{500mm²} - 0.25 \cdot 80Pa}{8.01}

3.995 = \frac{\frac{16}{500} - 0.25 \cdot 80}{8.01}

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Engineering » Category

Civil » Category

Structural Engineering » fx Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Solution

Follow our step by step solution on how to calculate Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

FIRST Step Consider the formula

f' s = \frac{\frac{P allow}{A g} - 0.25 \cdot f' c}{p g}

Next Step Substitute values of Variables

∴

f' s = \frac{\frac{16kN}{500mm²} - 0.25 \cdot 80Pa}{8.01}

Next Step Convert Units

∴

f' s = \frac{\frac{16000.01N}{0.0005m²} - 0.25 \cdot 80Pa}{8.01}

Next Step Prepare to Evaluate

∴

f' s = \frac{\frac{16000.01}{0.0005} - 0.25 \cdot 80}{8.01}

Next Step Evaluate

∴

f' s = 3995006.24219725Pa

Next Step Convert to Output's Unit

∴

f' s = 3.99500624219725N/mm²

LAST Step Rounding Answer

∴

f' s = 3.995N/mm²

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Formula Elements

Variables

Allowable Stress in Vertical Reinforcement

Allowable Stress in Vertical Reinforcement is equal to 40 percent of the minimum yield strength, but not to exceed 30,000 lb/sq.in(207 MPa).

Symbol: f'_s

Measurement: PressureUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Allowable Stress in Vertical Reinforcement

Allowable Load

Allowable load is the maximum working load that can be applied on the structure.

Symbol: P_allow

Measurement: ForceUnit: kN

Note: Value should be greater than 0.

Formulas to find Allowable Load

Gross Area of Column

Gross Area of Column is the total area enclosed by the column.

Symbol: A_g

Measurement: AreaUnit: mm²

Note: Value should be greater than 0.

Formulas to find Gross Area of Column

Specified Compressive Strength at 28 Days

Specified Compressive Strength at 28 Days is the capacity of a material or structure to withstand loads tending to reduce the size, as opposed to which withstands loads tending to elongate.

Symbol: f'_c

Measurement: PressureUnit: Pa

Note: Value should be greater than 0.

Formulas to find Specified Compressive Strength at 28 Days

Area Ratio of Cross Sectional Area to Gross Area

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.

Symbol: p_g

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Area Ratio of Cross Sectional Area to Gross Area

Other formulas in Design of Short Column under Axial Compression category

Go Total Allowable Axial Load for Short Columns

P allow = A g \cdot (0.25 \cdot f' c + f' s \cdot p g)

Go Gross Cross-Sectional Area of Column given Total Allowable Axial Load

A g = \frac{P allow}{0.25 \cdot f' c + f' s \cdot p g}

Go Concrete Compressive Strength given Total Allowable Axial Load

fck = \frac{(\frac{p T}{A g}) - (f' s \cdot p g)}{0.25}

Go Spiral Volume to Concrete-Core Volume Ratio

p s = 0.45 \cdot (\frac{A g}{A c} - 1) \cdot \frac{f' c}{fy steel}

How to Evaluate Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load evaluator uses Allowable Stress in Vertical Reinforcement = (Allowable Load/Gross Area of Column-0.25*Specified Compressive Strength at 28 Days)/Area Ratio of Cross Sectional Area to Gross Area to evaluate the Allowable Stress in Vertical Reinforcement, The Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load formula is defined as the maximum stress (tensile, compressive or bending) that is allowed to be applied on structural material and it is equal to 40 percent of minimum yield strength, but not to exceed 30,000 lb/sq.in(207 MPa). Allowable Stress in Vertical Reinforcement is denoted by f'_s symbol.

How to evaluate Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load using this online evaluator? To use this online evaluator for Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load, enter Allowable Load (P_allow), Gross Area of Column (A_g), Specified Compressive Strength at 28 Days (f'_c) & Area Ratio of Cross Sectional Area to Gross Area (p_g) and hit the calculate button.

FAQs on Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load

What is the formula to find Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

The formula of Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load is expressed as Allowable Stress in Vertical Reinforcement = (Allowable Load/Gross Area of Column-0.25*Specified Compressive Strength at 28 Days)/Area Ratio of Cross Sectional Area to Gross Area. Here is an example- 4E-6 = (16000.01/0.0005-0.25*80)/8.01.

How to calculate Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

With Allowable Load (P_allow), Gross Area of Column (A_g), Specified Compressive Strength at 28 Days (f'_c) & Area Ratio of Cross Sectional Area to Gross Area (p_g) we can find Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load using the formula - Allowable Stress in Vertical Reinforcement = (Allowable Load/Gross Area of Column-0.25*Specified Compressive Strength at 28 Days)/Area Ratio of Cross Sectional Area to Gross Area.

Can the Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load be negative?

No, the Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load, measured in Pressure cannot be negative.

Which unit is used to measure Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load is usually measured using the Newton per Square Millimeter[N/mm²] for Pressure. Pascal[N/mm²], Kilopascal[N/mm²], Bar[N/mm²] are the few other units in which Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Formula

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Example

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Solution

Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load Formula Elements

Other formulas in Design of Short Column under Axial Compression category

How to Evaluate Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load?

FAQs on Allowable Stress in Vertical Concrete Reinforcing given Total Allowable Axial Load

Variable Name