A stainless steel tube with an outside diameter of 70 mnm and a wall thickness of...
the hollow tube down has an outside diameter of 45 mm and an inside diameter of 40 mm. the tube is made of an aluminum alloy with a minimum yield strength of 280 MPa. the bending load is F =1.5 kN, the axial load is P = 10kN and the twisting moment is T = 70 N-m. Determine the factor of safety based on the stress at point A using (a) the maximum shear stress theory and (b) the distortion...
A 50-mm-diameter steel tube with a wall thickness of 2 mm just fits in a rigid hole. Find the tangential stress if an axial compressive load of 10 kN is applied. Assume υ = 0.30 and E = 200 X 10 N/m . Neglect the possibility of buckling.
Mechanics of solid help please Question 2 An aluminum tube with an outside diameter of 1.000 in. will be used to support a load of 10-kip. If the axial stress in the member must be limited to 30 ksi, determine the wall thickness required for the tube.
A 304 stainless steel (yield strength 30 ksi) cylinder has an inner diameter of 4 in and a wall thickness of 0.1 in. If it is subjected to an axial load of 500 lb and a torque of 70 lb-ft, determine if yielding occurs according to the maximum shear stress and distortional energy theories. 70 lb-ft 500 lb 500 lb 70 lb-ft
The steel pipe AB has a 106-mm outer diameter and a 6-mm wall thickness. Knowing that arm CD is rigidly attached to the pipe, determine the principal stresses and the maximum shearing stress at point K 53 mm 6 mm 191 mm 9.2 kN 152 mm MPa MPa MPa ? max ?min
A steel tube with a circular cross section has an outside diameter of 300 mm and wall thickness of 2 mm. The cylinder is twisted along its length of 2 m with a torque of 50 kN · m. (a) Determine the maximum torsional shear stress using Equation Theta= T*L/JG (b) Determine the maximum torsional shear stress using the closed thin-walled tube method. Compare this result to the result of part (a). (c) Assuming the tube does not yield, determine...
The torsional assembly in the Figure above consists of a cold-rolled stainless-steel tube AC with an outside diameter of 4 in., a wall thickness of 0.2 in., a shear modulus of G = 12,500 ksi, and an allowable shear stress of 35 ksi. The tube AC is connected to a solid cold-rolled brass segment CD at the flange C and has a diameter of 2.50 in., a shear modulus of G = 5,600 ksi, and an allowable shear stress of...
An alumninum (E = 68.9 GPa) cylindrical tube has an outer diameter of 200 mm, a wall thickness of 7.5 mm, and an internal pressure of 5 MPa. It is subjected to a force with the axial and transverse components shown acting at the centroid of the free end of the tube 1. Verify that the tube meets the thin-wall criterion 2. Draw the left half of the tube, and show the equivalent force-couple system acting at the centroid of...
A pipe with an outside diameter of 175 mm and a wall thickness of 6 mm is subjected to the loadings shown in the figure below. Р. H For this analysis, use the following values: Distances, Loads, and Moments. a = 400 mm Px = 40.5 kN Py = 68.5 kN T = 35 kN-m (a) Calculate the maximum in-plane shear stress Tmax at point Hon the outer surface of the pipe if there is no internal pressure (i.e.,p-OkPa). (Note:...
A pipe with an outside diameter of 150 mm and a wall thickness of 5 mm is subjected to the loadings shown in the figure below. P PO a For this analysis, use the following values: Distances, Loads, and Moments. a = 450 mm Px = 11.5 kN Py = 25.5 kN T = 15 kN-m (a) Calculate the maximum in-plane shear stress Tmax at point Hon the outer surface of the pipe if there is no internal pressure (i.e.,...