Eccentricity for Balanced Condition for Short, Circular Members Solution

STEP 0: Pre-Calculation Summary
Formula Used
Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section
eb = (0.24-0.39*Rho'*m)*D
This formula uses 4 Variables
Variables Used
Eccentricity with respect to Plastic Load - (Measured in Millimeter) - Eccentricity with respect to Plastic Load is the distance from plastic centroid to centroid of tension reinforcement.
Area Ratio of Gross Area to Steel Area - Area Ratio of Gross Area to Steel Area is the ratio of gross area of steel and area of steel reinforcement.
Force Ratio of Strengths of Reinforcements - Force Ratio of Strengths of Reinforcements is the ratio of yield strength of reinforcing steel to 0.85 times 28 day compressive strength of concrete.
Overall Diameter of Section - (Measured in Millimeter) - Overall Diameter of Section is the section without any load.
STEP 1: Convert Input(s) to Base Unit
Area Ratio of Gross Area to Steel Area: 0.9 --> No Conversion Required
Force Ratio of Strengths of Reinforcements: 0.4 --> No Conversion Required
Overall Diameter of Section: 250 Millimeter --> 250 Millimeter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
eb = (0.24-0.39*Rho'*m)*D --> (0.24-0.39*0.9*0.4)*250
Evaluating ... ...
eb = 24.9
STEP 3: Convert Result to Output's Unit
0.0249 Meter -->24.9 Millimeter (Check conversion ​here)
FINAL ANSWER
24.9 Millimeter <-- Eccentricity with respect to Plastic Load
(Calculation completed in 00.004 seconds)

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Ultimate Strength for Short, Circular Members when Controlled by Tension
​ LaTeX ​ Go Axial Load Capacity = 0.85*28-Day Compressive Strength of Concrete*(Overall Diameter of Section^2)*Resistance Factor*(sqrt((((0.85*Eccentricity of Column/Overall Diameter of Section)-0.38)^2)+(Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements*Bar Diameter/(2.5*Overall Diameter of Section)))-((0.85*Eccentricity of Column/Overall Diameter of Section)-0.38))
Ultimate Strength for Short, Circular Members when Governed by Compression
​ LaTeX ​ Go Axial Load Capacity = Resistance Factor*((Area of Steel Reinforcement*Yield Strength of Reinforcing Steel/((3*Eccentricity of Column/Bar Diameter)+1))+(Gross Area of Column*28-Day Compressive Strength of Concrete/(9.6*Diameter at Eccentricity/((0.8*Overall Diameter of Section+0.67*Bar Diameter)^2)+1.18)))
Eccentricity for Balanced Condition for Short, Circular Members
​ LaTeX ​ Go Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section

Eccentricity for Balanced Condition for Short, Circular Members Formula

​LaTeX ​Go
Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section
eb = (0.24-0.39*Rho'*m)*D

What is the Ultimate Strength of a Material?

The ultimate strength is the maximum stress that a material can withstand before it breaks or weakens. For example, the ultimate tensile strength (UTS) of AISI 1018 Steel is 440 MPa.

What happens when eccentricity is 0?

If the eccentricity is zero, the curve is a circle; if equal to one, a parabola; if less than one, an ellipse; and if greater than one, a hyperbola.

How to Calculate Eccentricity for Balanced Condition for Short, Circular Members?

Eccentricity for Balanced Condition for Short, Circular Members calculator uses Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section to calculate the Eccentricity with respect to Plastic Load, The Eccentricity for Balanced Condition for Short, Circular Members formula is defined as the eccentricity, of the axial load with respect to the plastic centroid and is the distance, from plastic centroid to centroid of tension reinforcement. Eccentricity with respect to Plastic Load is denoted by eb symbol.

How to calculate Eccentricity for Balanced Condition for Short, Circular Members using this online calculator? To use this online calculator for Eccentricity for Balanced Condition for Short, Circular Members, enter Area Ratio of Gross Area to Steel Area (Rho'), Force Ratio of Strengths of Reinforcements (m) & Overall Diameter of Section (D) and hit the calculate button. Here is how the Eccentricity for Balanced Condition for Short, Circular Members calculation can be explained with given input values -> 0.0249 = (0.24-0.39*0.9*0.4)*0.25.

FAQ

What is Eccentricity for Balanced Condition for Short, Circular Members?
The Eccentricity for Balanced Condition for Short, Circular Members formula is defined as the eccentricity, of the axial load with respect to the plastic centroid and is the distance, from plastic centroid to centroid of tension reinforcement and is represented as eb = (0.24-0.39*Rho'*m)*D or Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section. Area Ratio of Gross Area to Steel Area is the ratio of gross area of steel and area of steel reinforcement, Force Ratio of Strengths of Reinforcements is the ratio of yield strength of reinforcing steel to 0.85 times 28 day compressive strength of concrete & Overall Diameter of Section is the section without any load.
How to calculate Eccentricity for Balanced Condition for Short, Circular Members?
The Eccentricity for Balanced Condition for Short, Circular Members formula is defined as the eccentricity, of the axial load with respect to the plastic centroid and is the distance, from plastic centroid to centroid of tension reinforcement is calculated using Eccentricity with respect to Plastic Load = (0.24-0.39*Area Ratio of Gross Area to Steel Area*Force Ratio of Strengths of Reinforcements)*Overall Diameter of Section. To calculate Eccentricity for Balanced Condition for Short, Circular Members, you need Area Ratio of Gross Area to Steel Area (Rho'), Force Ratio of Strengths of Reinforcements (m) & Overall Diameter of Section (D). With our tool, you need to enter the respective value for Area Ratio of Gross Area to Steel Area, Force Ratio of Strengths of Reinforcements & Overall Diameter of Section 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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