thin-walled tube

Solution to Problem 569 | Horizontal Shearing Stress

Problem 569

Show that the maximum shearing stress in a beam having a thin-walled tubular section of net area A is τ = 2V / A.

 

Solution to Problem 340 | Torsion of thin-walled tube

340 Oval thin-walled tube

Problem 340

A tube 2 mm thick has the shape shown in Fig. P-340. Find the shearing stress caused by a torque of 600 N·m.

 

Solution to Problem 339 | Torsion of thin-walled tube

339 Square thin-walled tube

Problem 339

A torque of 450 lb⋅ft is applied to the square section shown in Fig. P-339. Determine the smallest permissible dimension a if the shearing stress is limited to 6000 psi.

 

Solution to Problem 338 | Torsion of thin-walled tube

338 Elliptical thin-walled section

Problem 338

A tube 0.10 in. thick has an elliptical shape shown in Fig. P-338. What torque will cause a shearing stress of 8000 psi?

 

Solution to Problem 337 | Torsion of thin-walled tube

337 Rectangular thin-walled section

Problem 337

A torque of 600 N·m is applied to the rectangular section shown in Fig. P-337. Determine the wall thickness t so as not to exceed a shear stress of 80 MPa. What is the shear stress in the short sides? Neglect stress concentration at the corners.

 

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