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Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Formula

GoTheoretical Maximum Stress for ANC Code 2017ST Aluminium Formula

GoTheoretical Maximum Stress for ANC Code Spruce Formula

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The Theoretical Maximum Stress is when a material will fail or yield when its maximum stress equals or exceeds the shear stress value at the yield point in the uniaxial tensile test. Check FAQs

S cr = 135000 - (\frac{15.9}{c}) \cdot {(\frac{L}{r gyration})}^{2}

S_cr - Theoretical Maximum Stress?c - End Fixity Coefficient?L - Effective Length of Column?r_gyration - Radius of Gyration of Column?

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Example

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Here is how the Theoretical Maximum Stress for ANC Code Alloy Steel Tubing equation looks like with Values.

Here is how the Theoretical Maximum Stress for ANC Code Alloy Steel Tubing equation looks like with Units.

Here is how the Theoretical Maximum Stress for ANC Code Alloy Steel Tubing equation looks like.

82078.4024 = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3000}{26})}^{2}

82078.4024Pa = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3000mm}{26mm})}^{2}

82078.4024 = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3000}{26})}^{2}

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Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Solution

Follow our step by step solution on how to calculate Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

FIRST Step Consider the formula

S cr = 135000 - (\frac{15.9}{c}) \cdot {(\frac{L}{r gyration})}^{2}

Next Step Substitute values of Variables

∴

S cr = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3000mm}{26mm})}^{2}

Next Step Convert Units

∴

S cr = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3m}{0.026m})}^{2}

Next Step Prepare to Evaluate

∴

S cr = 135000 - (\frac{15.9}{4}) \cdot {(\frac{3}{0.026})}^{2}

Next Step Evaluate

∴

S cr = 82078.4023668639Pa

LAST Step Rounding Answer

∴

S cr = 82078.4024Pa

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Formula Elements

Variables

Theoretical Maximum Stress

The Theoretical Maximum Stress is when a material will fail or yield when its maximum stress equals or exceeds the shear stress value at the yield point in the uniaxial tensile test.

Symbol: S_cr

Measurement: StressUnit: Pa

Note: Value should be greater than 0.

Formulas to find Theoretical Maximum Stress

End Fixity Coefficient

The End Fixity Coefficient is defined as the ratio of the moment at one end to the moment at the same end when both the ends are ideally fixed.

Symbol: c

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find End Fixity Coefficient

Effective Length of Column

The Effective Length of Column can be defined as the length of an equivalent pin-ended column having the same load-carrying capacity as the member under consideration.

Symbol: L

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Effective Length of Column

Radius of Gyration of Column

The Radius of Gyration of Column about the axis of rotation is defined as the radial distance to a point which would have a moment of inertia the same as the body's actual distribution of mass.

Symbol: r_gyration

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Radius of Gyration of Column

Other Formulas to find Theoretical Maximum Stress

Go Theoretical Maximum Stress for ANC Code 2017ST Aluminium

S cr = 34500 - (\frac{245}{\sqrt{c}}) \cdot (\frac{L}{r gyration})

Go Theoretical Maximum Stress for ANC Code Spruce

S cr = 5000 - (\frac{0.5}{c}) \cdot {(\frac{L}{r gyration})}^{2}

Go Theoretical Maximum Stress for Johnson Code Steels

S cr = S y \cdot (1 - (\frac{S y}{4 \cdot n \cdot (π^{2}) \cdot E}) \cdot {(\frac{L}{r gyration})}^{2})

Other formulas in Typical Short Column Formulas category

Go Critical Stress for Carbon Steel by AISC code

S w = 17000 - 0.485 \cdot {(\frac{L}{r gyration})}^{2}

Go Critical Stress for Carbon Steel by Chicago code

S w = 16000 - 70 \cdot (\frac{L}{r gyration})

Go Critical Stress for Carbon Steel by AREA code

S w = 15000 - 50 \cdot (\frac{L}{r gyration})

Go Critical Stress for Carbon Steel by Am. Br. Co. code

S w = 19000 - 100 \cdot (\frac{L}{r gyration})

How to Evaluate Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing evaluator uses Theoretical Maximum Stress = 135000-(15.9/End Fixity Coefficient)*(Effective Length of Column/Radius of Gyration of Column)^2 to evaluate the Theoretical Maximum Stress, The Theoretical Maximum Stress for ANC Code Alloy Steel Tubing formula is defined as maximum possible stress a perfect solid can withstand, when short blocks or short column are loaded eccentrically in compression or in tension (not through the center of gravity). Theoretical Maximum Stress is denoted by S_cr symbol.

How to evaluate Theoretical Maximum Stress for ANC Code Alloy Steel Tubing using this online evaluator? To use this online evaluator for Theoretical Maximum Stress for ANC Code Alloy Steel Tubing, enter End Fixity Coefficient (c), Effective Length of Column (L) & Radius of Gyration of Column (r_gyration) and hit the calculate button.

FAQs on Theoretical Maximum Stress for ANC Code Alloy Steel Tubing

What is the formula to find Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

The formula of Theoretical Maximum Stress for ANC Code Alloy Steel Tubing is expressed as Theoretical Maximum Stress = 135000-(15.9/End Fixity Coefficient)*(Effective Length of Column/Radius of Gyration of Column)^2. Here is an example- 82078.4 = 135000-(15.9/4)*(3/0.026)^2.

How to calculate Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

With End Fixity Coefficient (c), Effective Length of Column (L) & Radius of Gyration of Column (r_gyration) we can find Theoretical Maximum Stress for ANC Code Alloy Steel Tubing using the formula - Theoretical Maximum Stress = 135000-(15.9/End Fixity Coefficient)*(Effective Length of Column/Radius of Gyration of Column)^2.

What are the other ways to Calculate Theoretical Maximum Stress?

Here are the different ways to Calculate Theoretical Maximum Stress-

Theoretical Maximum Stress=34500-(245/sqrt(End Fixity Coefficient))*(Effective Length of Column/Radius of Gyration of Column)
Theoretical Maximum Stress=5000-(0.5/End Fixity Coefficient)*(Effective Length of Column/Radius of Gyration of Column)^2
Theoretical Maximum Stress=Stress at any Point y*(1-(Stress at any Point y/(4*Coefficient for Column End Conditions*(pi^2)*Modulus of Elasticity))*(Effective Length of Column/Radius of Gyration of Column)^2)

Can the Theoretical Maximum Stress for ANC Code Alloy Steel Tubing be negative?

No, the Theoretical Maximum Stress for ANC Code Alloy Steel Tubing, measured in Stress cannot be negative.

Which unit is used to measure Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing is usually measured using the Pascal[Pa] for Stress. Newton per Square Meter[Pa], Newton per Square Millimeter[Pa], Kilonewton per Square Meter[Pa] are the few other units in which Theoretical Maximum Stress for ANC Code Alloy Steel Tubing can be measured.

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Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Formula

​GoTheoretical Maximum Stress for ANC Code 2017ST Aluminium Formula

​GoTheoretical Maximum Stress for ANC Code Spruce Formula

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Example

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Solution

Theoretical Maximum Stress for ANC Code Alloy Steel Tubing Formula Elements

Other Formulas to find Theoretical Maximum Stress

Other formulas in Typical Short Column Formulas category

How to Evaluate Theoretical Maximum Stress for ANC Code Alloy Steel Tubing?

FAQs on Theoretical Maximum Stress for ANC Code Alloy Steel Tubing

Variable Name

GoTheoretical Maximum Stress for ANC Code 2017ST Aluminium Formula

GoTheoretical Maximum Stress for ANC Code Spruce Formula