Bolt shearing: Difference between revisions
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==Cross-Sectional Area of 3/4" Bolt== | ==Cross-Sectional Area of 3/4" Bolt== | ||
Diameter = .75" (Threads excluded bolt) | |||
r= dia/2 | |||
A = pi * r^2 | A = pi * r^2 | ||
A = | A = 3.1416 * (0.75/2)^2 | ||
A = | A = .4418in^2 | ||
==Shear Capability== | ==Shear Capability== | ||
Revision as of 09:57, 28 April 2013
Overview
Collection of resources to understand how grade of bolts relates to shear strength
Simple Bolt Strength
Bolt Grade Chart - This page shows the tensile strength of different bolt grades for both Imperial and Metric.
Shear Strength Analysis - Resource for calculations used here
Although no official shear strength values are calculated, the common acceptance is that the ultimate shear strength of a bolt is approximately 60% of the minimum ultimate tensile strength.
Simple Example Calculation
Comparison between a 3/4" Grade 2, Grade 5 and Grade 8 bolt.
To get the shear loading force you take the calculated shear strength and multiply it by the cross-sectional area of the fastener
Cross-Sectional Area of 3/4" Bolt
Diameter = .75" (Threads excluded bolt) r= dia/2 A = pi * r^2 A = 3.1416 * (0.75/2)^2 A = .4418in^2
Shear Capability
Capability in shear = Shear strength (pounds/in^2) * Cross sectional Area (in^2)
| Bolt Grade | Minimum Tensile Strength (psi) | Shear Strength (psi) | Shear Capability (lbs) |
|---|---|---|---|
| 2 | 74,000 | 44,400 | 78,000 |
| 5 | 120,000 | 72,000 | 127,000 |
| 8 | 150,000 | 90,000 | 159,000 |
Advanced Analysis
Situation specific analysis is required for actual meaningful data. Additional information on this can be found in the Machinery's Handbook under Working Strength of Bolts.
Wanted: If anyone has access to a Machinery's Handbook and can provide further information that would be great!