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Mechanics of Material
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| Mechanics of Material Chapter no 6 |
Mechanics of Material
6_shearing_stresses.pdf
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Chapter no 6
Shearing Stress in Beams and Thin Walled Members
In this we will discussed the following topic and these topics are discussed in detail in the above given slides.
Introduction
Transverse loading applied to a beam
results in normal and shearing stresses in
transverse sections.
Distribution of normal and shearing
stresses satisfies.
When shearing stresses are exerted on the
vertical faces of an element, equal stresses
must be exerted on the horizontal faces.
Longitudinal shearing stresses must exist
in any member subjected to transverse
loading.
- Shear on a horizontal face of a beam
- Solved Example Problem 6.1
- Determination of Shearing Stress in a Beam
- Shearing Stress in Common Types of a Beam
- Solved Example Problem 6.2
- Shearing Stress in Thin Walled Members
Material Science and Engineering
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| Lecture no 9 Rubber |
In this lecture we will discussed about the Rubber Products. All of the below mentioned topic are discussed in detail in the given slides.2K16-MSE Lec-9 Industrial Rubber.pdf
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- Natural Rubber Introduction: Elastomers, Widespread Use ( In vehicle, war equipment, Industries, Medical Equipment, House hold items, Specific Purposes)
- Natural Rubber History
- Natural Rubber Origin
- Latex
- Natural Rubber Production
- Latex to Rubber Processing Summary
- Processing of Natural Rubber (Latex Processing)
- Aging of Natural Rubber
- Natural Rubber Storage Recommendations
- Difference between Plastic and Rubber
- Acrylic, Butadiene, Butyl, Chlorinated Polyethylene, Polyurethane, Silicone, Styrene Butadiene.
- Rubber Processing and Shaping
- Failure of Rubber Products
- Industrial Rubber
Mechanics of Material
chap-3.pdf
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- Introduction
- Torsional Loads on Circular Shafts
- Net Torque Due to Internal Stresses
- Axial Shear Components
- Shaft Deformations
- Shearing Strain
- Stresses in Elastic Range
- Normal Stresses
- Torsional Failure Modes
- Sample Problem 3.1
- Angle of Twist in Elastic Range
- Statically Indeterminate Shafts
- Sample Problem 3.4
- Design of Transmission Shafts
- Stress Concentrations
- Plastic Deformations
- Elastoplastic Materials
- Residual Stresses
- Example 3.08/3.09
- Torsion of Noncircular Members
- Thin-Walled Hollow Shafts
- Introduce students to the concept of torsion in structural members and machine parts.
- Define shearing stresses and strains in a circular shaft subject to
- torsion
- Define angle of twist in terms of the applied torque, geometry of
- the shaft, and material
- Use torsional deformations to solve indeterminate problems
- Design shafts for power transmission
- Review stress concentrations and how they are included in torsion
- problems
- Describe the elastic-perfectly plastic response of circular shafts
- Analyze torsion for noncircular members
- Define the behavior of thin-walled hollow shafts
Hitec Mechanical Engineering
Mechanical Engineeirng Hitec Mechanical Engineering As we know Mechanical Engineering is the branch of engineering dealing with the des...
