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Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor Formula

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The Major Axis of Elliptical Crack is the longest diameter of an elliptical crack, influencing stress concentration and structural integrity in mechanical design under fluctuating loads. Check FAQs

a e = b e \cdot (k t - 1)

a_e - Major Axis of Elliptical Crack?b_e - Minor Axis of Elliptical Crack?k_t - Theoretical Stress Concentration Factor?

Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor Example

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Here is how the Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor equation looks like with Values.

Here is how the Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor equation looks like with Units.

Here is how the Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor equation looks like.

30 = 15 \cdot (3 - 1)

30mm = 15mm \cdot (3 - 1)

30 = 15 \cdot (3 - 1)

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Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor Solution

Follow our step by step solution on how to calculate Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor?

FIRST Step Consider the formula

a e = b e \cdot (k t - 1)

Next Step Substitute values of Variables

∴

a e = 15mm \cdot (3 - 1)

Next Step Convert Units

∴

a e = 0.015m \cdot (3 - 1)

Next Step Prepare to Evaluate

∴

a e = 0.015 \cdot (3 - 1)

Next Step Evaluate

∴

a e = 0.03m

LAST Step Convert to Output's Unit

∴

a e = 30mm

Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor Formula Elements

Variables

Major Axis of Elliptical Crack

The Major Axis of Elliptical Crack is the longest diameter of an elliptical crack, influencing stress concentration and structural integrity in mechanical design under fluctuating loads.

Symbol: a_e

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Major Axis of Elliptical Crack

Minor Axis of Elliptical Crack

The Minor Axis of Elliptical Crack is the shortest diameter of an elliptical crack, influencing stress concentration and structural integrity in mechanical design.

Symbol: b_e

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Minor Axis of Elliptical Crack

Theoretical Stress Concentration Factor

The Theoretical Stress Concentration Factor is a dimensionless value that quantifies the increase in stress at a particular point in a material due to geometric discontinuities.

Symbol: k_t

Measurement: NAUnit: Unitless

Note: Value should be greater than 1.

Formulas to find Theoretical Stress Concentration Factor

Other formulas in Flat Plate against Fluctuating Loads category

Go Theoretical Stress Concentration Factor

k t = \frac{σa max}{σ o}

Go Theoretical Stress Concentration Factor for Elliptical Crack

k t = 1 + \frac{a e}{b e}

Go Mean Stress for Fluctuating Load

σ m = \frac{σ max + σ min}{2}

Go Nominal Tensile Stress in Flat Plate with Shoulder Fillet

σ o = \frac{P}{d o \cdot t}

How to Evaluate Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor?

Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor evaluator uses Major Axis of Elliptical Crack = Minor Axis of Elliptical Crack*(Theoretical Stress Concentration Factor-1) to evaluate the Major Axis of Elliptical Crack, The major axis of elliptical crack hole in flat plate given theoretical stress concentration factor is the length of the longest axis passing through the ellipse centre and is along the length of the crack hole. Major Axis of Elliptical Crack is denoted by a_e symbol.

How to evaluate Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor using this online evaluator? To use this online evaluator for Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor, enter Minor Axis of Elliptical Crack (b_e) & Theoretical Stress Concentration Factor (k_t) and hit the calculate button.

FAQs on Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor

What is the formula to find Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor?

The formula of Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor is expressed as Major Axis of Elliptical Crack = Minor Axis of Elliptical Crack*(Theoretical Stress Concentration Factor-1). Here is an example- 30000 = 0.015*(3-1).

How to calculate Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor?

With Minor Axis of Elliptical Crack (b_e) & Theoretical Stress Concentration Factor (k_t) we can find Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor using the formula - Major Axis of Elliptical Crack = Minor Axis of Elliptical Crack*(Theoretical Stress Concentration Factor-1).

Can the Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor be negative?

No, the Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor, measured in Length cannot be negative.

Which unit is used to measure Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor?

Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor is usually measured using the Millimeter[mm] for Length. Meter[mm], Kilometer[mm], Decimeter[mm] are the few other units in which Major Axis of Elliptical Crack Hole in Flat Plate given Theoretical Stress Concentration Factor can be measured.

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