Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 300+ more calculators!
Himanshi Sharma
Bhilai Institute of Technology (BIT), Raipur
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11 Other formulas that you can solve using the same Inputs

Stirrup Spacing for Practical Design
Spacing of Stirrups=(Stirrup Area*Capacity reduction factor*Yield strength of reinforcing steel*Effective depth of beam)/((Design Shear )-((2*Capacity reduction factor)*sqrt(28 Day Compressive Strength of Concrete)*Breadth of the web*Effective depth of beam)) GO
Stirrups Spacing when Stirrup Leg Area is Given for Group of Bars Bent up Different Distances
Stirrup Spacing=(Stirrup Area*allowable stress in stirrup steel*Distance from Compression to Centroid Reinforcment*(sin(Angle at which the stirrup is inclined)+cos(Angle at which the stirrup is inclined)))/(excess shear) GO
Excess Shear when Stirrup Leg Area is Given for Group of Bars Bent up Different Distances
excess shear=(Stirrup Area*allowable stress in stirrup steel*Distance from Compression to Centroid Reinforcment*(sin(Angle at which the stirrup is inclined)+cos(Angle at which the stirrup is inclined)))/(Stirrup Spacing) GO
Nominal Reinforcement Shear Strength when Stirrups Area for Inclined Stirrups is Given
Nominal strength of Shear Reinforcement=(Stirrup Area*Yield strength of reinforcing steel*Effective depth of beam)*(sin(Angle at Support)+cos(Angle at which the stirrup is inclined))/(Stirrup Spacing) GO
Stirrups Area when Inclined Stirrups are Used
Stirrup Area=(Strength of Shear Reinforcement*Stirrup Spacing)/((sin(Angle at Support)+cos(Angle at which the stirrup is inclined))*Yield strength of reinforcing steel*Effective depth of beam) GO
Allowable Stress in Stirrup Steel when Area in Legs of a Vertical Stirrup is Given
allowable stress in stirrup steel=(excess shear*Stirrup Spacing)/(Stirrup Area*Distance from Compression to Centroid Reinforcment) GO
Excess Shear when Area in Legs of a Vertical Stirrup is Given
excess shear=(Stirrup Area*allowable stress in stirrup steel*Distance from Compression to Centroid Reinforcment)/(Stirrup Spacing) GO
Stirrups Spacing when Area in Legs of a Vertical Stirrup is Given
Spacing of Stirrups=(Stirrup Area*allowable stress in stirrup steel*Distance from Extreme Compression to Centroid )/excess shear GO
Distance from Extreme Compression to Centroid when Area in Legs of a Vertical Stirrup is Given
Distance from Extreme Compression to Centroid =(excess shear*Stirrup Spacing)/(allowable stress in stirrup steel*Stirrup Area) GO
Nominal Reinforcement Shear Strength when Stirrup Area with Support Angle is Given
Nominal strength of Shear Reinforcement=(Stirrup Area)/(Yield strength of reinforcing steel)*sin(Angle at Support) GO
Stirrup Area when Support Angle is Given
Stirrup Area=(Strength of Shear Reinforcement)/(Yield strength of reinforcing steel)*sin(Angle at Support) GO

2 Other formulas that calculate the same Output

Reinforcement Yield Strength when Axial Load for Tied Columns is Given
yield strength of reinforcement=(Bending moment)/(0.40*area of tension reinforcement*(Distance from Compression to Tensile Reinforcement-Distance from Compression to Centroid Reinforcment)) GO
Reinforcement Yield Strength when Shear Friction Reinforcement Area is Given
yield strength of reinforcement=Design Shear /(Capacity reduction factor*Coefficient of Friction*area of shear friction reinforcement) GO

Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given Formula

yield strength of reinforcement=(Strength of Shear Reinforcement)/((Stirrup Area)*sin(Angle at Support))
f<sub>y</sub>=(Vs)/((Av)*sin(α))
More formulas
Ultimate Shear Capacity of a Beam Section GO
Nominal Shear Strength of the Concrete GO
Nominal Shear Strength Provided by Reinforcement GO
Area of Steel Required in Vertical Stirrups GO
Spacing when Area of Steel in Vertical Stirrups is Given GO
Nominal Reinforcement Shear Strength when Area of Steel in Vertical Stirrups is Given GO
Stirrup Spacing for Practical Design GO
Stirrup Area when Stirrup Spacing for Practical Design is Given GO
Stirrup Area when Support Angle is Given GO
Nominal Reinforcement Shear Strength when Stirrup Area with Support Angle is Given GO
Stirrups Area when Inclined Stirrups are Used GO
Nominal Reinforcement Shear Strength when Stirrups Area for Inclined Stirrups is Given GO

What is Yield Strength

Yield strength is the maximum stress that can be applied before it begins to change shape permanently

What is the importance of a good Yield Strength

The value of yield strength is important in the construction of structures, such that the structures are able to perform in the elastic region under normal servicing conditions

How to Calculate Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given?

Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given calculator uses yield strength of reinforcement=(Strength of Shear Reinforcement)/((Stirrup Area)*sin(Angle at Support)) to calculate the yield strength of reinforcement, The Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given formula is defined as ratio of nominal strength of shear reinforcement to that of stirrup area and the angle at support. yield strength of reinforcement and is denoted by fy symbol.

How to calculate Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given using this online calculator? To use this online calculator for Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given, enter Strength of Shear Reinforcement (Vs), Stirrup Area (Av) and Angle at Support (α) and hit the calculate button. Here is how the Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given calculation can be explained with given input values -> 8000 = (200000)/((5E-05)*sin(30)).

FAQ

What is Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given?
The Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given formula is defined as ratio of nominal strength of shear reinforcement to that of stirrup area and the angle at support and is represented as fy or yield strength of reinforcement=(Strength of Shear Reinforcement)/((Stirrup Area)*sin(Angle at Support)). Strength of Shear reinforcements are designed to withstand shear or diagonal stresses acting on the structure, Stirrup Area (Av) is the total cross-sectional area of the stirrup bars used and Angle at support at which the bars are bent up at the same distance with the longitudinal axis of the member.
How to calculate Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given?
The Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given formula is defined as ratio of nominal strength of shear reinforcement to that of stirrup area and the angle at support is calculated using yield strength of reinforcement=(Strength of Shear Reinforcement)/((Stirrup Area)*sin(Angle at Support)). To calculate Shear Reinforcement Yield Strength when Stirrup Area with Support Angle is Given, you need Strength of Shear Reinforcement (Vs), Stirrup Area (Av) and Angle at Support (α). With our tool, you need to enter the respective value for Strength of Shear Reinforcement, Stirrup Area and Angle at Support and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate yield strength of reinforcement?
In this formula, yield strength of reinforcement uses Strength of Shear Reinforcement, Stirrup Area and Angle at Support. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • yield strength of reinforcement=(Bending moment)/(0.40*area of tension reinforcement*(Distance from Compression to Tensile Reinforcement-Distance from Compression to Centroid Reinforcment))
  • yield strength of reinforcement=Design Shear /(Capacity reduction factor*Coefficient of Friction*area of shear friction reinforcement)
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