Allowable crushing stress given safe load which rivet can withstand for given projected area Calculator

✖Safe load Joint is the manufacturer's recommended maximum weight load for a line, rope, crane, or any other lifting device or component of a lifting device.ⓘ Safe load Joint [P_safe]			+10% -10%
✖Projected area is the two dimensional area measurement of a three-dimensional object by projecting its shape on to an arbitrary plane.ⓘ Projected area [A_projected]			+10% -10%

✖Crushing stress is a special type of localized compressive stress which occurs at the surface of contact of two members that are relatively at rest.ⓘ Allowable crushing stress given safe load which rivet can withstand for given projected area [σ_c]

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Allowable crushing stress given safe load which rivet can withstand for given projected area

Formula

`"σ"_{"c"} = "P"_{"safe"}/("A"_{"projected"})`

Example

`"918.3673MPa"="4.5kN"/("4.9mm²")`

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Allowable crushing stress given safe load which rivet can withstand for given projected area Solution

STEP 0: Pre-Calculation Summary

Formula Used

Crushing stress = Safe load Joint/(Projected area)
σ_c = P_safe/(A_projected)
This formula uses 3 Variables

Variables Used

Crushing stress - (Measured in Pascal) - Crushing stress is a special type of localized compressive stress which occurs at the surface of contact of two members that are relatively at rest.
Safe load Joint - (Measured in Newton) - Safe load Joint is the manufacturer's recommended maximum weight load for a line, rope, crane, or any other lifting device or component of a lifting device.
Projected area - (Measured in Square Meter) - Projected area is the two dimensional area measurement of a three-dimensional object by projecting its shape on to an arbitrary plane.

STEP 1: Convert Input(s) to Base Unit

Safe load Joint: 4.5 Kilonewton --> 4500 Newton (Check conversion here)
Projected area: 4.9 Square Millimeter --> 4.9E-06 Square Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

σ_c = P_safe/(A_projected) --> 4500/(4.9E-06)

Evaluating ... ...

σ_c = 918367346.938776

STEP 3: Convert Result to Output's Unit

918367346.938776 Pascal -->918.367346938776 Megapascal (Check conversion here)

FINAL ANSWER

918.367346938776 ≈ 918.3673 Megapascal <-- Crushing stress

(Calculation completed in 00.004 seconds)

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Home » Physics » Strength of Materials » Riveted Joint » Failure Of A Riveted Joint » Failure Due To Crushing Of Rivet Or Plate » Allowable crushing stress given safe load which rivet can withstand for given projected area

Credits

Created by Anshika Arya

National Institute Of Technology (NIT), Hamirpur

Anshika Arya has created this Calculator and 2000+ more calculators!

Verified by Payal Priya

Birsa Institute of Technology (BIT), Sindri

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< 24 Failure Due To Crushing Of Rivet Or Plate Calculators

Allowable crushing stress given strength of joint per pitch length of joint against crushing

Go Crushing stress = Strength of joint/(Number of Rivets Per Pitch*Rivet Diameter*Thickness of Plate)

Thickness of plates given strength of joint per pitch length of joint against crushing

Go Thickness of Plate = Strength of joint/(Number of Rivets Per Pitch*Crushing stress*Rivet Diameter)

Diameter of rivet given strength of joint per pitch length of joint against crushing

Go Rivet Diameter = Strength of joint/(Number of Rivets Per Pitch*Crushing stress*Thickness of Plate)

Number of rivets given strength of joint per pitch length of joint against crushing

Go Number of Rivets Per Pitch = Strength of joint/(Crushing stress*Rivet Diameter*Thickness of Plate)

Strength of joint per pitch length of joint against crushing

Go Strength of joint = (Number of Rivets Per Pitch*Crushing stress*Rivet Diameter*Thickness of Plate)

Allowable crushing stress given strength of joint per pitch length (single rivet)

Go Crushing stress = Strength of joint/(1*Rivet Diameter*Thickness of Plate)

Allowable crushing stress given strength of joint per pitch length (double rivet)

Go Crushing stress = Strength of joint/(2*Rivet Diameter*Thickness of Plate)

Allowable crushing stress given strength of joint per pitch length (triple rivet)

Go Crushing stress = Strength of joint/(3*Rivet Diameter*Thickness of Plate)

Thickness of plates given strength of joint per pitch length (single rivet)

Go Thickness of Plate = Strength of joint/(1*Crushing stress*Rivet Diameter)

Thickness of plates given strength of joint per pitch length (double rivet)

Go Thickness of Plate = Strength of joint/(2*Crushing stress*Rivet Diameter)

Strength of joint per pitch length of joint against crushing (triple rivet)

Go Strength of joint = (3*Crushing stress*Rivet Diameter*Thickness of Plate)

Thickness of plates given strength of joint per pitch length (triple rivet)

Go Thickness of Plate = Strength of joint/(3*Crushing stress*Rivet Diameter)

Strength of joint per pitch length of joint against crushing(single rivet)

Go Strength of joint = (1*Crushing stress*Rivet Diameter*Thickness of Plate)

Strength of joint per pitch length of joint against crushing(double rivet)

Go Strength of joint = (2*Crushing stress*Rivet Diameter*Thickness of Plate)

Diameter of rivet given strength of joint per pitch length (single rivet)

Go Rivet Diameter = Strength of joint/(1*Crushing stress*Thickness of Plate)

Diameter of rivet given strength of joint per pitch length (double rivet)

Go Rivet Diameter = Strength of joint/(2*Crushing stress*Thickness of Plate)

Diameter of rivet given strength of joint per pitch length (triple-rivet)

Go Rivet Diameter = Strength of joint/(3*Crushing stress*Thickness of Plate)

Allowable crushing stress given safe load which rivet can withstand against crushing

Go Crushing stress = Safe load Joint/(Rivet Diameter*Thickness of Plate)

Thickness of plates given safe load which rivet can withstand against crushing

Go Thickness of Plate = Safe load Joint/(Crushing stress*Rivet Diameter)

Diameter of rivet given safe load that rivet can withstand against crushing

Go Rivet Diameter = Safe load Joint/(Crushing stress*Thickness of Plate)

Safe load which rivet can withstand against crushing

Go Safe load Joint = Crushing stress*Rivet Diameter*Thickness of Plate

Allowable crushing stress given safe load which rivet can withstand for given projected area

Go Crushing stress = Safe load Joint/(Projected area)

Projected area given safe load which rivet can withstand against crushing

Go Projected area = Safe load Joint/(Crushing stress)

Safe load which rivet can withstand against crushing given projected area

Go Safe load Joint = Crushing stress*Projected area

Allowable crushing stress given safe load which rivet can withstand for given projected area Formula

Crushing stress = Safe load Joint/(Projected area)
σ_c = P_safe/(A_projected)

What is tear and tensile strength?

Tear strength is the measure of how much tensile stress the material can withstand in a specific case, i.e. when a tear has been introduced in the material, whereas a normal tensile stress test is done for a non-defective piece of material.

How to Calculate Allowable crushing stress given safe load which rivet can withstand for given projected area?

Allowable crushing stress given safe load which rivet can withstand for given projected area calculator uses Crushing stress = Safe load Joint/(Projected area) to calculate the Crushing stress, The Allowable crushing stress given safe load which rivet can withstand for given projected area is given formula is defined as a special type of localized compressive stress which occurs at the surface of contact of two members that are relatively at rest. Crushing stress is denoted by σ_c symbol.

How to calculate Allowable crushing stress given safe load which rivet can withstand for given projected area using this online calculator? To use this online calculator for Allowable crushing stress given safe load which rivet can withstand for given projected area, enter Safe load Joint (P_safe) & Projected area (A_projected) and hit the calculate button. Here is how the Allowable crushing stress given safe load which rivet can withstand for given projected area calculation can be explained with given input values -> 0.000918 = 4500/(4.9E-06).

FAQ

What is Allowable crushing stress given safe load which rivet can withstand for given projected area?

The Allowable crushing stress given safe load which rivet can withstand for given projected area is given formula is defined as a special type of localized compressive stress which occurs at the surface of contact of two members that are relatively at rest and is represented as σ_c = P_safe/(A_projected) or Crushing stress = Safe load Joint/(Projected area). Safe load Joint is the manufacturer's recommended maximum weight load for a line, rope, crane, or any other lifting device or component of a lifting device & Projected area is the two dimensional area measurement of a three-dimensional object by projecting its shape on to an arbitrary plane.

How to calculate Allowable crushing stress given safe load which rivet can withstand for given projected area?

The Allowable crushing stress given safe load which rivet can withstand for given projected area is given formula is defined as a special type of localized compressive stress which occurs at the surface of contact of two members that are relatively at rest is calculated using Crushing stress = Safe load Joint/(Projected area). To calculate Allowable crushing stress given safe load which rivet can withstand for given projected area, you need Safe load Joint (P_safe) & Projected area (A_projected). With our tool, you need to enter the respective value for Safe load Joint & Projected area 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 Crushing stress?

In this formula, Crushing stress uses Safe load Joint & Projected area. We can use 5 other way(s) to calculate the same, which is/are as follows -

Crushing stress = Safe load Joint/(Rivet Diameter*Thickness of Plate)
Crushing stress = Strength of joint/(1*Rivet Diameter*Thickness of Plate)
Crushing stress = Strength of joint/(2*Rivet Diameter*Thickness of Plate)
Crushing stress = Strength of joint/(3*Rivet Diameter*Thickness of Plate)
Crushing stress = Strength of joint/(Number of Rivets Per Pitch*Rivet Diameter*Thickness of Plate)

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