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Stress at a point—its implication in design
The state of stress at a point is given by nine stress components as shown in figure 2.1.6.1 and this is represented by the general matrix as shown below.
2.1.6.1F- Three dimensional stress field on an infinitesimal element.
Consider now a two dimensional stress element subjected only to shear stresses. For equilibrium of a 2-D element we take moment of all the forces about point A ( figure-2.1.6.2) and equate to zero as follows:
2.1.6.2F- Complimentary shear stresses on a 2-D element.
This gives τxy=τyx indicating that τxy and τyx are complimentary. On similar arguments we may write τyz=τzy and τzx=τxz . This means that the state of stress at a point can be given by six stress components only. It is important to understand the implication of this state of stress at a point in the design of machine elements where all or some of the stresses discussed above may act.
For an example, let us consider a cantilever beam of circular cross-section subjected to a vertical loading P at the free end and an axial loading F in addition to a torque T as shown in figure 2.1.6.3. Let the diameter of cross-section and the length of the beam be d and L respectively.
The maximum stresses developed in the beam are :
It is now necessary to consider the most vulnerable section and element. Since the axial and torsional shear stresses are constant through out the length, the most vulnerable section is the built-up end. We now consider the three elements A, B and C. There is no bending stress on the element B and the bending and axial stresses on the element C act in the opposite direction. Therefore, for the safe design of the beam we consider the stresses on the element A which is shown in figure 2.1.6.4.
Principal stresses and maximum shear stresses can now be obtained and using a suitable failure theory a suitable diameter of the bar may be obtained.
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FAQs on Simple Stresses (Part - 3) - Additional Study Material for Mechanical Engineering
| 1. What are simple stresses? |  |
Ans. Simple stresses refer to the internal forces that develop within a material when subjected to external loads or forces. These stresses can occur due to tension, compression, or shear, and they are usually considered to act perpendicular or parallel to the cross-sectional area of the material.
| 2. How do simple stresses affect mechanical engineering? | |
Ans. Simple stresses play a crucial role in mechanical engineering as they help determine the strength, stability, and safety of various structures and components. By analyzing and understanding the simple stresses acting on a material, engineers can design structures that can withstand the expected loads and forces without failure.
| 3. What is the importance of analyzing simple stresses in mechanical engineering? | |
Ans. Analyzing simple stresses in mechanical engineering is important because it allows engineers to ensure the structural integrity and safety of their designs. By calculating and evaluating the simple stresses acting on a material, engineers can determine its ability to withstand external loads, predict potential failures, and make necessary design modifications to meet the desired performance requirements.
| 4. What are the different types of simple stresses? | |
Ans. The different types of simple stresses include:
1. Tensile stress: This type of stress occurs when an external force tends to stretch or elongate a material.
2. Compressive stress: Compressive stress arises when an external force tends to compress or shorten a material.
3. Shear stress: Shear stress occurs when two forces act parallel to each other but in opposite directions, causing the material to deform by sliding layers of the material relative to each other.
| 5. How are simple stresses calculated in mechanical engineering? | |
Ans. The calculation of simple stresses in mechanical engineering depends on the type of stress and the geometry of the material. For example, the tensile stress can be calculated by dividing the applied force by the cross-sectional area of the material, while compressive stress is calculated in a similar manner. Shear stress, on the other hand, is calculated by dividing the applied force by the area over which the force acts.
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