Yield Stress of Steel2 using Relative Material Cost Ratio Calculator

✖Yield Stress 1 is a crucial material property that marks the transition from elastic behavior to plastic behavior.ⓘ Yield Stress 1 [F_y1]			+10% -10%
✖Material Cost p2 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service.ⓘ Material Cost p2 [P₂]			+10% -10%
✖Relative Cost is the cost of a good or service in relation to the prices of other goods and services.ⓘ Relative Cost [C2_/C1]			+10% -10%
✖Material Cost p1 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service.ⓘ Material Cost p1 [P₁]			+10% -10%

✖Yield Stress 2 is a crucial material property that marks the transition from elastic behavior to plastic behavior.ⓘ Yield Stress of Steel2 using Relative Material Cost Ratio [F_y2]

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Formula

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Yield Stress of Steel2 using Relative Material Cost Ratio

Formula

`"F"_{"y2"} = ("F"_{"y1"}*"P"_{"2"})/("C2"_{"/C1"}*"P"_{"1"})`

Example

`"110.9755N/m²"= ("104N/m²"*"25")/("0.9011"*"26")`

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Yield Stress of Steel2 using Relative Material Cost Ratio Solution

STEP 0: Pre-Calculation Summary

Formula Used

Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1)
F_y2 = (F_y1*P₂)/(C2_/C1*P₁)
This formula uses 5 Variables

Variables Used

Yield Stress 2 - (Measured in Pascal) - Yield Stress 2 is a crucial material property that marks the transition from elastic behavior to plastic behavior.
Yield Stress 1 - (Measured in Pascal) - Yield Stress 1 is a crucial material property that marks the transition from elastic behavior to plastic behavior.
Material Cost p2 - Material Cost p2 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service.
Relative Cost - Relative Cost is the cost of a good or service in relation to the prices of other goods and services.
Material Cost p1 - Material Cost p1 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service.

STEP 1: Convert Input(s) to Base Unit

Yield Stress 1: 104 Newton per Square Meter --> 104 Pascal (Check conversion here)
Material Cost p2: 25 --> No Conversion Required
Relative Cost: 0.9011 --> No Conversion Required
Material Cost p1: 26 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F_y2 = (F_y1*P₂)/(C2_/C1*P₁) --> (104*25)/(0.9011*26)

Evaluating ... ...

F_y2 = 110.975474420153

STEP 3: Convert Result to Output's Unit

110.975474420153 Pascal -->110.975474420153 Newton per Square Meter (Check conversion here)

FINAL ANSWER

110.975474420153 ≈ 110.9755 Newton per Square Meter <-- Yield Stress 2

(Calculation completed in 00.004 seconds)

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Created by M Naveen

National Institute of Technology (NIT), Warangal

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< 22 Economical Structural Steel Calculators

Material Price p1 given Material Cost Ratio

Go Material Cost p1 = (Cross-Sectional Area of Material 2*Material Cost p2)/(Relative Cost*Cross-Sectional Area of Material 1)

Material Cost Ratio

Go Relative Cost = (Cross-Sectional Area of Material 2/Cross-Sectional Area of Material 1)*(Material Cost p2/Material Cost p1)

Cross-Sectional Area1 given Material Cost Ratio

Go Cross-Sectional Area of Material 1 = (Cross-Sectional Area of Material 2*Material Cost p2)/(Relative Cost*Material Cost p1)

Cross-Sectional Area2 given Material Cost Ratio

Go Cross-Sectional Area of Material 2 = (Relative Cost*Cross-Sectional Area of Material 1*Material Cost p1)/Material Cost p2

Material Price p2 given Material Cost Ratio

Go Material Cost p2 = (Relative Cost*Material Cost p1*Cross-Sectional Area of Material 1)/Cross-Sectional Area of Material 2

Relative Cost for Designing Fabricated Plate Girders

Go Relative Cost = (Material Cost p2/Material Cost p1)*(Yield Stress 1/Yield Stress 2)^(1/2)

Yield Stress Fy2 given Relative Cost

Go Yield Stress 2 = Yield Stress 1/(Material Cost p1/Material Cost p2*Relative Cost)^(3/2)

Relative Cost given Yield Stress

Go Relative Cost = (Material Cost p2/Material Cost p1)*(Yield Stress 1/Yield Stress 2)^(2/3)

Yield Stress Fy1 given Relative Cost

Go Yield Stress 1 = (Relative Cost*Material Cost p1/Material Cost p2)^(3/2)*Yield Stress 2

Yield Stress Fy1 given Relative Cost for Designing Fabricated Plate Girders

Go Yield Stress 1 = (Relative Cost*Material Cost p1/Material Cost p2)^2*(Yield Stress 2)

Yield Stress Fy2 given Relative Cost for Designing Fabricated Plate Girders

Go Yield Stress 2 = Yield Stress 1/(Relative Cost*Material Cost p1/Material Cost p2)^2

Yield Stress of Steel2 using Relative Material Cost Ratio

Go Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1)

Yield Stress of Steel1 using Relative Material Cost Ratio

Go Yield Stress 1 = (Relative Cost*Yield Stress 2*Material Cost p1)/Material Cost p2

Material Price p1 using Relative Material Cost Ratio

Go Material Cost p1 = ((Yield Stress 1/Yield Stress 2)*Material Cost p2)/Relative Cost

Material Price p2 using Relative Material Cost Ratio

Go Material Cost p2 = (Relative Cost*Material Cost p1)/(Yield Stress 1/Yield Stress 2)

Relative Material Cost Ratio

Go Relative Cost = (Yield Stress 1/Yield Stress 2)*(Material Cost p2/Material Cost p1)

Relative Weight for Designing Fabricated Plate Girders

Go Relative Weight = sqrt(Yield Stress 1/Yield Stress 2)

Yield Stress Fy1 given Relative Weight

Go Yield Stress 1 = (Relative Weight)^(3/2)*(Yield Stress 2)

Yield Stress Fy2 given Relative Weight

Go Yield Stress 2 = Yield Stress 1/(Relative Weight)^(3/2)

Relative Weight given Yield Stresses

Go Relative Weight = (Yield Stress 1/Yield Stress 2)^(2/3)

Yield Stress Fy1 given Relative Weight for Designing Fabricated Plate Girders

Go Yield Stress 1 = (Relative Weight)^2*Yield Stress 2

Yield Stress Fy2 given Relative Weight for Designing Fabricated Plate Girders

Go Yield Stress 2 = Yield Stress 1/(Relative Weight^2)

Yield Stress of Steel2 using Relative Material Cost Ratio Formula

Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1)
F_y2 = (F_y1*P₂)/(C2_/C1*P₁)

What is Relative Material Cost Ratio?

If the members are designed to carry the same load at a stress that is a fixed percentage of the yield point, the cross-sectional areas are inversely proportional to the yield stresses. then, their relative material cost ratio is expressed.

How to Calculate Yield Stress of Steel2 using Relative Material Cost Ratio?

Yield Stress of Steel2 using Relative Material Cost Ratio calculator uses Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1) to calculate the Yield Stress 2, The Yield Stress of Steel2 using Relative Material Cost Ratio formula is defined as the tensile stress required to produce a total elongation of the steel when members are designed to carry the same load at a stress that is a fixed percentage of the yield point, then cross-sectional areas are inversely proportional to the yield stresses. Yield Stress 2 is denoted by F_y2 symbol.

How to calculate Yield Stress of Steel2 using Relative Material Cost Ratio using this online calculator? To use this online calculator for Yield Stress of Steel2 using Relative Material Cost Ratio, enter Yield Stress 1 (F_y1), Material Cost p2 (P₂), Relative Cost (C2_/C1) & Material Cost p1 (P₁) and hit the calculate button. Here is how the Yield Stress of Steel2 using Relative Material Cost Ratio calculation can be explained with given input values -> 86.65511 = (104*25)/(0.9011*26).

FAQ

What is Yield Stress of Steel2 using Relative Material Cost Ratio?

The Yield Stress of Steel2 using Relative Material Cost Ratio formula is defined as the tensile stress required to produce a total elongation of the steel when members are designed to carry the same load at a stress that is a fixed percentage of the yield point, then cross-sectional areas are inversely proportional to the yield stresses and is represented as F_y2 = (F_y1*P₂)/(C2_/C1*P₁) or Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1). Yield Stress 1 is a crucial material property that marks the transition from elastic behavior to plastic behavior, Material Cost p2 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service, Relative Cost is the cost of a good or service in relation to the prices of other goods and services & Material Cost p1 is the material price per unit weight. It is the cost of materials used to manufacture a product or provide a service.

How to calculate Yield Stress of Steel2 using Relative Material Cost Ratio?

The Yield Stress of Steel2 using Relative Material Cost Ratio formula is defined as the tensile stress required to produce a total elongation of the steel when members are designed to carry the same load at a stress that is a fixed percentage of the yield point, then cross-sectional areas are inversely proportional to the yield stresses is calculated using Yield Stress 2 = (Yield Stress 1*Material Cost p2)/(Relative Cost*Material Cost p1). To calculate Yield Stress of Steel2 using Relative Material Cost Ratio, you need Yield Stress 1 (F_y1), Material Cost p2 (P₂), Relative Cost (C2_/C1) & Material Cost p1 (P₁). With our tool, you need to enter the respective value for Yield Stress 1, Material Cost p2, Relative Cost & Material Cost p1 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 Stress 2?

In this formula, Yield Stress 2 uses Yield Stress 1, Material Cost p2, Relative Cost & Material Cost p1. We can use 4 other way(s) to calculate the same, which is/are as follows -

Yield Stress 2 = Yield Stress 1/(Relative Weight)^(3/2)
Yield Stress 2 = Yield Stress 1/(Material Cost p1/Material Cost p2*Relative Cost)^(3/2)
Yield Stress 2 = Yield Stress 1/(Relative Weight^2)
Yield Stress 2 = Yield Stress 1/(Relative Cost*Material Cost p1/Material Cost p2)^2

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