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A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.?
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A square pin is required to resist a pull of 40kn and shear force of 1...
Calculation of Suitable Section for Square Pin
To calculate the suitable section for the square pin according to the maximum shear energy theory, we need to consider the given pull and shear force requirements along with the material properties.
Given Data:
Pull Force (P) = 40 kN
Shear Force (V) = 15 kN
Elastic Stress in Tension (σ) = 350 MPa
Coefficient of Friction (μ) = 0.3
Assumptions:
1. Uniform distribution of normal and shear stress on the cross-section.
2. Maximum shear energy theory is used for design.
Calculations:
1. Maximum Shear Stress (τ_max) = σ/2 = 350/2 = 175 MPa
2. Area required for shear force:
Area = V / τ_max = 15 / 175 = 0.0857 m^2
3. Side length of square pin (d):
d^2 = Area
d = √0.0857 = 0.2926 m
Conclusion:
Therefore, a square pin with a side length of approximately 0.2926 meters would be suitable to resist a pull of 40 kN and a shear force of 15 kN based on the maximum shear energy theory and the given material properties and assumptions.
To calculate the suitable section for the square pin according to the maximum shear energy theory, we need to consider the given pull and shear force requirements along with the material properties.
Given Data:
Pull Force (P) = 40 kN
Shear Force (V) = 15 kN
Elastic Stress in Tension (σ) = 350 MPa
Coefficient of Friction (μ) = 0.3
Assumptions:
1. Uniform distribution of normal and shear stress on the cross-section.
2. Maximum shear energy theory is used for design.
Calculations:
1. Maximum Shear Stress (τ_max) = σ/2 = 350/2 = 175 MPa
2. Area required for shear force:
Area = V / τ_max = 15 / 175 = 0.0857 m^2
3. Side length of square pin (d):
d^2 = Area
d = √0.0857 = 0.2926 m
Conclusion:
Therefore, a square pin with a side length of approximately 0.2926 meters would be suitable to resist a pull of 40 kN and a shear force of 15 kN based on the maximum shear energy theory and the given material properties and assumptions.
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A square pin is required to resist a pull of 40kn and shear force of 1...
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A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.?
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A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.?.
A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A square pin is required to resist a pull of 40kn and shear force of 15kn .derive a suitable section according to maximum shear energy theory.if elastic stress in tension is 350mpa.mu=0.3.Assume uniform distribution of normal and shear stress on the cross section.?.
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