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Problem on Shaft based on Strength Criteria Video Lecture | Design of Machine Elements - Mechanical Engineering

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FAQs on Problem on Shaft based on Strength Criteria Video Lecture - Design of Machine Elements - Mechanical Engineering

1. How is the strength of a shaft determined in mechanical engineering?
Ans. The strength of a shaft in mechanical engineering is determined by various factors such as the material used, the diameter and length of the shaft, and the applied load. Strength calculations are typically based on stress and deformation analysis using mathematical formulas and engineering principles.
2. What are the commonly used strength criteria for shaft design in mechanical engineering?
Ans. The commonly used strength criteria for shaft design in mechanical engineering are the maximum shear stress theory, the maximum distortion energy theory (also known as von Mises theory), and the maximum normal stress theory. These theories help engineers determine the maximum allowable stress or strain in the shaft to ensure it can withstand the applied load without failure.
3. How does the maximum shear stress theory determine the strength of a shaft?
Ans. According to the maximum shear stress theory, the strength of a shaft is determined by comparing the maximum shear stress developed in the shaft to the shear strength of the material. If the maximum shear stress is less than the shear strength, the shaft is considered safe. However, if the maximum shear stress exceeds the shear strength, the shaft may fail under the applied load.
4. What is the significance of the maximum distortion energy theory in shaft design?
Ans. The maximum distortion energy theory, also known as von Mises theory, is widely used in shaft design as it takes into account both the shear and normal stresses acting on the shaft. This theory considers that failure occurs when the distortion energy (also known as von Mises stress) exceeds a certain limit. By using this theory, engineers can predict the failure of a shaft more accurately, especially in cases where the shear and normal stresses are not proportional.
5. How is the maximum normal stress theory applied in shaft design?
Ans. The maximum normal stress theory assumes that the failure of a shaft occurs when the maximum normal stress exceeds the yield strength of the material. This theory focuses on the principal stresses acting on the shaft, considering both tension and compression. Engineers use this theory to determine the maximum allowable stress in the shaft, ensuring it remains within the yield strength limits to prevent failure under the applied load.
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