| Ch 1. Stress and Strain | Multimedia Engineering Mechanics | ||||||
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Normal Stress |
Shear and Bearing Stress |
Normal Strain |
Hooke's Law |
Thermal Effects |
Indeterminate Structures |
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| Shear and Bearing Stress | Case Intro | Theory | Case Solution | Example |
| Chapter |
| 1. Stress/Strain |
| 2. Torsion |
| 3. Beam Shr/Moment |
| 4. Beam Stresses |
| 5. Beam Deflections |
| 6. Beam-Advanced |
| 7. Stress Analysis |
| 8. Strain Analysis |
| 9. Columns |
| Appendix |
| Basic Math |
| Units |
| Basic Equations |
| Sections |
| Material Properties |
| Structural Shapes |
| Beam Equations |
| Search |
| eBooks |
| Dynamics |
| Fluids |
| Math |
| Mechanics |
| Statics |
| Thermodynamics |
| Author(s): |
| Kurt Gramoll |
©Kurt Gramoll
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| Shear Stress |
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| In addition to normal stress that was covered in the previous section, shear stress is an important form of stress that needs to be understood and calculated. Most structures need to be designed for both normal and shear stress limits. Similar to average normal stress (σ = P/A), the average shear stress is defined as the the shear load divided by the area. |
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 Shear Loading on Bolt |
Shear loads are generally identified by the symbol V and shear stress by the greek symbol tau, τ. However, this is not a fixed rule. Another way to express the same concept is to define the total surface parallel load V as |
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 Shear Loading from Hole Punch |
where A is the area of the surface. One confusing issue with shear stress is direction. Unlike normal stress with compression or tension, shear stress is the same if it shears left to right or right to left. The magnitude of shear stress is the important parameter that needs to be considered. |
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 Shear Loading on Lap Joint |
It is important to remember that V/A is only the "average" shear stress. In actual shear stress distribution, it is not uniform and the maximum shear stress will be higher than the average shear stress. However, for this basic solid mechanics course, it is assumed that the shear load is uniformly distributed across the shear surface. | ||||
| Bearing Stress |
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 Bearing Stress Due to a Bolt  Actual Bearing Stress on Plate |
The average bearing stress is the force pushing against a structure divided by the area. Exact bearing stress is more complicated but for most applications, the following equation works well for the average,
This relationship can be further refined by using the width and height of the bearing area as Experiments have shown that the bearing stress distribution is more elliptical shaped and not uniform but due to calculation difficulties, a rectangular approximation is assumed, dt. |
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