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Maximum Stress in Horizontal Plate fixed at Edges Formula

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Maximum Stress in Horizontal Plate fixed at Edges depends on the loading conditions and the geometry of the structure. Check FAQs

f Edges = 0.7 \cdot f horizontal \cdot (\frac{{(L Horizontal)}^{2}}{{(T h)}^{2}}) \cdot (\frac{{(a)}^{4}}{{({(L Horizontal)}^{4} + (a))}^{4}})

f_Edges - Maximum Stress in Horizontal Plate fixed at Edges?f_horizontal - Maximum Pressure on Horizontal Plate?L_Horizontal - Length of Horizontal Plate?T_h - Thickness of Horizontal Plate?a - Effective Width of Horizontal Plate?

Maximum Stress in Horizontal Plate fixed at Edges Example

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Here is how the Maximum Stress in Horizontal Plate fixed at Edges equation looks like with Values.

Here is how the Maximum Stress in Horizontal Plate fixed at Edges equation looks like with Units.

Here is how the Maximum Stress in Horizontal Plate fixed at Edges equation looks like.

531.723 = 0.7 \cdot 2.2 \cdot (\frac{{(127)}^{2}}{{(6.8)}^{2}}) \cdot (\frac{{(102)}^{4}}{{({(127)}^{4} + (102))}^{4}})

531.723N/mm² = 0.7 \cdot 2.2N/mm² \cdot (\frac{{(127mm)}^{2}}{{(6.8mm)}^{2}}) \cdot (\frac{{(102mm)}^{4}}{{({(127mm)}^{4} + (102mm))}^{4}})

531.723 = 0.7 \cdot 2.2 \cdot (\frac{{(127)}^{2}}{{(6.8)}^{2}}) \cdot (\frac{{(102)}^{4}}{{({(127)}^{4} + (102))}^{4}})

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Maximum Stress in Horizontal Plate fixed at Edges Solution

Follow our step by step solution on how to calculate Maximum Stress in Horizontal Plate fixed at Edges?

FIRST Step Consider the formula

f Edges = 0.7 \cdot f horizontal \cdot (\frac{{(L Horizontal)}^{2}}{{(T h)}^{2}}) \cdot (\frac{{(a)}^{4}}{{({(L Horizontal)}^{4} + (a))}^{4}})

Next Step Substitute values of Variables

∴

f Edges = 0.7 \cdot 2.2N/mm² \cdot (\frac{{(127mm)}^{2}}{{(6.8mm)}^{2}}) \cdot (\frac{{(102mm)}^{4}}{{({(127mm)}^{4} + (102mm))}^{4}})

Next Step Convert Units

∴

f Edges = 0.7 \cdot 2.2E+6Pa \cdot (\frac{{(0.127m)}^{2}}{{(0.0068m)}^{2}}) \cdot (\frac{{(0.102m)}^{4}}{{({(0.127m)}^{4} + (0.102m))}^{4}})

Next Step Prepare to Evaluate

∴

f Edges = 0.7 \cdot 2.2E+6 \cdot (\frac{{(0.127)}^{2}}{{(0.0068)}^{2}}) \cdot (\frac{{(0.102)}^{4}}{{({(0.127)}^{4} + (0.102))}^{4}})

Next Step Evaluate

∴

f Edges = 531722959.954472Pa

Next Step Convert to Output's Unit

∴

f Edges = 531.722959954472N/mm²

LAST Step Rounding Answer

∴

f Edges = 531.723N/mm²

Maximum Stress in Horizontal Plate fixed at Edges Formula Elements

Variables

Maximum Stress in Horizontal Plate fixed at Edges

Maximum Stress in Horizontal Plate fixed at Edges depends on the loading conditions and the geometry of the structure.

Symbol: f_Edges

Measurement: StressUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Maximum Stress in Horizontal Plate fixed at Edges

Maximum Pressure on Horizontal Plate

The Maximum Pressure on Horizontal Plate formula is defined as the highest pressure that a system, equipment or material can withstand without experiencing failure or damage.

Symbol: f_horizontal

Measurement: PressureUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Maximum Pressure on Horizontal Plate

Length of Horizontal Plate

Length of Horizontal Plate is a flat surface that is oriented parallel to the ground or any other reference plane.

Symbol: L_Horizontal

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Length of Horizontal Plate

Thickness of Horizontal Plate

Thickness of Horizontal Plate is calculated based on the bending moment, the distance from the neutral axis, and the moment of inertia of the cross-section.

Symbol: T_h

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Thickness of Horizontal Plate

Effective Width of Horizontal Plate

Effective Width of Horizontal Plate refers to the distance across the plate in a direction perpendicular to its length.

Symbol: a

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Effective Width of Horizontal Plate

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How to Evaluate Maximum Stress in Horizontal Plate fixed at Edges?

Maximum Stress in Horizontal Plate fixed at Edges evaluator uses Maximum Stress in Horizontal Plate fixed at Edges = 0.7*Maximum Pressure on Horizontal Plate*((Length of Horizontal Plate)^(2)/(Thickness of Horizontal Plate)^(2))*((Effective Width of Horizontal Plate)^(4)/((Length of Horizontal Plate)^(4)+(Effective Width of Horizontal Plate))^(4)) to evaluate the Maximum Stress in Horizontal Plate fixed at Edges, The maximum stress in horizontal plate fixed at edges depends on the force per unit area that a material experiences when subjected to an external load or force. Maximum Stress in Horizontal Plate fixed at Edges is denoted by f_Edges symbol.

How to evaluate Maximum Stress in Horizontal Plate fixed at Edges using this online evaluator? To use this online evaluator for Maximum Stress in Horizontal Plate fixed at Edges, enter Maximum Pressure on Horizontal Plate (f_horizontal), Length of Horizontal Plate (L_Horizontal), Thickness of Horizontal Plate (T_h) & Effective Width of Horizontal Plate (a) and hit the calculate button.

FAQs on Maximum Stress in Horizontal Plate fixed at Edges

What is the formula to find Maximum Stress in Horizontal Plate fixed at Edges?

The formula of Maximum Stress in Horizontal Plate fixed at Edges is expressed as Maximum Stress in Horizontal Plate fixed at Edges = 0.7*Maximum Pressure on Horizontal Plate*((Length of Horizontal Plate)^(2)/(Thickness of Horizontal Plate)^(2))*((Effective Width of Horizontal Plate)^(4)/((Length of Horizontal Plate)^(4)+(Effective Width of Horizontal Plate))^(4)). Here is an example- 0.000532 = 0.7*2200000*((0.127)^(2)/(0.0068)^(2))*((0.102)^(4)/((0.127)^(4)+(0.102))^(4)).

How to calculate Maximum Stress in Horizontal Plate fixed at Edges?

With Maximum Pressure on Horizontal Plate (f_horizontal), Length of Horizontal Plate (L_Horizontal), Thickness of Horizontal Plate (T_h) & Effective Width of Horizontal Plate (a) we can find Maximum Stress in Horizontal Plate fixed at Edges using the formula - Maximum Stress in Horizontal Plate fixed at Edges = 0.7*Maximum Pressure on Horizontal Plate*((Length of Horizontal Plate)^(2)/(Thickness of Horizontal Plate)^(2))*((Effective Width of Horizontal Plate)^(4)/((Length of Horizontal Plate)^(4)+(Effective Width of Horizontal Plate))^(4)).

Can the Maximum Stress in Horizontal Plate fixed at Edges be negative?

No, the Maximum Stress in Horizontal Plate fixed at Edges, measured in Stress cannot be negative.

Which unit is used to measure Maximum Stress in Horizontal Plate fixed at Edges?

Maximum Stress in Horizontal Plate fixed at Edges is usually measured using the Newton per Square Millimeter[N/mm²] for Stress. Pascal[N/mm²], Newton per Square Meter[N/mm²], Kilonewton per Square Meter[N/mm²] are the few other units in which Maximum Stress in Horizontal Plate fixed at Edges can be measured.

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Maximum Stress in Horizontal Plate fixed at Edges Formula

Maximum Stress in Horizontal Plate fixed at Edges Example

Maximum Stress in Horizontal Plate fixed at Edges Solution

Maximum Stress in Horizontal Plate fixed at Edges Formula Elements

Other formulas in Design of Anchor Bolt and Bolting Chair category

How to Evaluate Maximum Stress in Horizontal Plate fixed at Edges?

FAQs on Maximum Stress in Horizontal Plate fixed at Edges

Variable Name