Strain in Prestressed Steel given Tension Force Solution

STEP 0: Pre-Calculation Summary
Formula Used
Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus)
ε = Nu/(As*Ep)
This formula uses 4 Variables
Variables Used
Strain - Strain is simply the measure of how much an object is stretched or deformed.
Tension Force - (Measured in Newton) - Tension Force is a pulling force transmitted axially from the member.
Area of Prestressing Steel - (Measured in Square Meter) - Area of Prestressing Steel is the total cross sectional area of tendons.
Prestressed Young's Modulus - (Measured in Kilogram per Cubic Meter) - Prestressed Young's Modulus is in essence the stiffness of a material or how easily it is bended or stretched in prestressed members.
STEP 1: Convert Input(s) to Base Unit
Tension Force: 1000 Newton --> 1000 Newton No Conversion Required
Area of Prestressing Steel: 20.2 Square Millimeter --> 2.02E-05 Square Meter (Check conversion here)
Prestressed Young's Modulus: 38 Kilogram per Cubic Centimeter --> 38000000 Kilogram per Cubic Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ε = Nu/(As*Ep) --> 1000/(2.02E-05*38000000)
Evaluating ... ...
ε = 1.30276185513288
STEP 3: Convert Result to Output's Unit
1.30276185513288 --> No Conversion Required
FINAL ANSWER
1.30276185513288 1.302762 <-- Strain
(Calculation completed in 00.004 seconds)

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13 Evaluation of Average Strain and Neutral Axis Depth Calculators

Height of Crack Width at Soffit given Average Strain
Go Height of Crack = (((Strain at Selected Level-Average Strain)*(3*Modulus of Elasticity of Steel Reinforcement*Area of Reinforcement*(Effective Depth of Reinforcement-Depth of Neutral Axis)))/(Crack Width*(Distance from Compression to Crack Width-Depth of Neutral Axis)))+Depth of Neutral Axis
Average Strain under Tension
Go Average Strain = Strain at Selected Level-(Crack Width*(Height of Crack-Depth of Neutral Axis)*(Distance from Compression to Crack Width-Depth of Neutral Axis))/(3*Modulus of Elasticity of Steel Reinforcement*Area of Reinforcement*(Effective Length-Depth of Neutral Axis))
Strain at Selected Level given Average Strain under Tension
Go Strain at Selected Level = Average Strain+(Crack Width*(Height of Crack-Depth of Neutral Axis)*(Distance from Compression to Crack Width-Depth of Neutral Axis))/(3*Modulus of Elasticity of Steel Reinforcement*Area of Reinforcement*(Effective Length-Depth of Neutral Axis))
Modulus of Elasticity of Concrete given Couple Force of Cross-Section
Go Modulus of Elasticity of Concrete = Couple Force/(0.5*Strain in Concrete*Depth of Neutral Axis*Crack Width)
Depth of Neutral Axis given Couple Force of Cross Section
Go Depth of Neutral Axis = Couple Force/(0.5*Modulus of Elasticity of Concrete*Strain in Concrete*Crack Width)
Strain given Couple Force of Cross Section
Go Strain in Concrete = Couple Force/(0.5*Modulus of Elasticity of Concrete*Depth of Neutral Axis*Crack Width)
Couple Force of Cross Section
Go Couple Force = 0.5*Modulus of Elasticity of Concrete*Strain in Concrete*Depth of Neutral Axis*Crack Width
Width of Section given Couple Force of Cross Section
Go Crack Width = Couple Force/(0.5*Modulus of Elasticity of Concrete*Strain*Depth of Neutral Axis)
Strain in Longitudinal Reinforcement given Tension Force
Go Strain in Longitudinal Reinforcement = Tension Force/(Area of Reinforcement*Modulus of Elasticity of Steel)
Modulus of Elasticity of Prestressed Steel given Compression Force
Go Prestressed Young's Modulus = Total Compression on Concrete/(Area of Prestressing Steel*Strain)
Compression Force for Prestressed Section
Go Total Compression on Concrete = Area of Prestressing Steel*Prestressed Young's Modulus*Strain
Strain in Prestressed Steel given Tension Force
Go Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus)
Area of Prestressing Steel given Tension Force
Go Area of Prestressing Steel = Tension Force/(Prestressed Young's Modulus*Strain)

Strain in Prestressed Steel given Tension Force Formula

Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus)
ε = Nu/(As*Ep)

What does Youngs Modulus mean?

Youngs modulus is a a measure of elasticity, equal to the ratio of the stress acting on a substance to the strain produced. The coefficient of proportionality is Young's modulus. The higher the modulus, the more stress is needed to create the same amount of strain; an idealized rigid body would have an infinite Young's modulus. Conversely, a very soft material such as a fluid, would deform without force, and would have zero Young's modulus. Rocks with low Young's modulus tend to be ductile and rocks with high Young's modulus tend to be brittle.

What does Tension Force mean?

Tension Force (Ts) for a Prestressed Section is defined as the force that is transmitted through a rope, string or wire when pulled by forces acting from opposite sides. The tension force is directed over the length of the wire and pulls energy equally on the bodies at the ends.

How to Calculate Strain in Prestressed Steel given Tension Force?

Strain in Prestressed Steel given Tension Force calculator uses Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus) to calculate the Strain, The Strain in Prestressed Steel given Tension Force is defined as change in shape or size of body due to deforming force applied on it. Strain is strain at prestressing level. Strain is denoted by ε symbol.

How to calculate Strain in Prestressed Steel given Tension Force using this online calculator? To use this online calculator for Strain in Prestressed Steel given Tension Force, enter Tension Force (Nu), Area of Prestressing Steel (As) & Prestressed Young's Modulus (Ep) and hit the calculate button. Here is how the Strain in Prestressed Steel given Tension Force calculation can be explained with given input values -> 1.315789 = 1000/(2.02E-05*38000000).

FAQ

What is Strain in Prestressed Steel given Tension Force?
The Strain in Prestressed Steel given Tension Force is defined as change in shape or size of body due to deforming force applied on it. Strain is strain at prestressing level and is represented as ε = Nu/(As*Ep) or Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus). Tension Force is a pulling force transmitted axially from the member, Area of Prestressing Steel is the total cross sectional area of tendons & Prestressed Young's Modulus is in essence the stiffness of a material or how easily it is bended or stretched in prestressed members.
How to calculate Strain in Prestressed Steel given Tension Force?
The Strain in Prestressed Steel given Tension Force is defined as change in shape or size of body due to deforming force applied on it. Strain is strain at prestressing level is calculated using Strain = Tension Force/(Area of Prestressing Steel*Prestressed Young's Modulus). To calculate Strain in Prestressed Steel given Tension Force, you need Tension Force (Nu), Area of Prestressing Steel (As) & Prestressed Young's Modulus (Ep). With our tool, you need to enter the respective value for Tension Force, Area of Prestressing Steel & Prestressed Young's Modulus 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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