The steel plate shown is 12mm thick which is used for the design of a cylindrical tank 2.4m. in diameter. The longitudinal lap splice has three rows of 16mm rivets spaced 50mm apart in the center rows and 100mm apart in the outer rows. Assume the diameter of holes to be 3mm larger than the rivet diameter. Find the maximum fluid pressure that this connection could carry if the allowable stresses are as follows: Given: Tensile stress = 124 MPa Shearing Stress = 93 MPa Bearing Stress = 186 MPa
The steel plate shown is 12mm thick which is used for the design of a cylindrical tank 2.4m. in diameter. The longitudinal lap splice has three rows of 16mm rivets spaced 50mm apart in the center rows and 100mm apart in the outer rows. Assume the diameter of holes to be 3mm larger than the rivet diameter. Find the maximum fluid pressure that this connection could carry if the allowable stresses are as follows: Given: Tensile stress = 124 MPa Shearing Stress = 93 MPa Bearing Stress = 186 MPa
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The steel plate shown is 12mm thick which is used for the design of a cylindrical tank 2.4m. in diameter. The longitudinal lap splice has three rows of 16mm rivets spaced 50mm apart in the center rows and 100mm apart in the outer rows. Assume the diameter of holes to be 3mm larger than the rivet diameter. Find the maximum fluid pressure that this connection could carry if the allowable stresses are as follows: Given: Tensile stress = 124 MPa Shearing Stress = 93 MPa Bearing Stress = 186 MPa
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