Question A-36 steel pipe with an outer diameter of 100 mm and an inner diameter of...
Question A-36 steel pipe with an outer diameter of 100 mm and an inner diameter of 80 mm subjected to loadings shown in Figure 1. The pipe is rigidly fixed at B and P = 150 kN. Given the yield stress, Oy=250 MPa and factor of safety, F.S. = 1.5 is used against yielding on this entire pipe. (a) For the stress state at the surface, construct the Mohr circle and determine: (1) the total stresses at surface of the...
Question 5 16 pts The steel pipe AB has a 72-mm outer diameter and a 5-mm wall thickness. Knowing that the arm CDE is rigidly attached to the pipe, determine the normal and shearing stresses at point H on the outer surface. The properties at the cross section at H include: A 1052.4 mm2,J 1,187,700 mm4, 1 593,840 mm4, and QNA 11,243 mm3 3 kN 9 kN 120 mm 150 mm 120 mm a.) Normal stress at H: b.) Shear...
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
(b) Explain the usefulness of Mohr's Circle in engineering context and discuss the advantages of Mohr's circle. Quote any references. [15 marks] B 80 mm 100 mm P T Figure 1: A-36 steel pipe with loadings.
3) A steel pipe A with inner diameter (ID) 0.8" and outer diameter (OD) 1.104", is press-fitted into another steel pipe B with 1.1" ID and 1.5" OD (a) What are the tangential stresses at the ID and OD of steel pipe A? (b) What are the radial stresses at the ID and OD of the steel pipe A? (C) What is the maximum shear stress in steel pipe A? Young's modulus and Poisson ratio of steel are 30 Mpsi...
Answer is 2.84 Question 1 A ships solid circular drive shaft is of diameter, d-54 mm, and is subjected to a torque, T steel with a yield stress of 350 MPa. 1700 Nm and an axial force, F-127 kN as shown. The shaft is made of Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle to get...
The copper pipe has an outer diameter of 40 mm and an Inner diameter of 31 mm. It is tightly secured to the wall at A and three orques are applied to it as shown in the figure below (Figure 1) Part A Determine the absolute maximum shear stress developed in the pipe.
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.,...
The thin-walled pipe has an Inner diameter of 12 mm and a thickness of 0.6 mm. It is subjected to an internal pressure of 2 MPa and the axial tension and torsional loadings shown in (Figure 1). Part A Determine the principal stresses at a point on the surface of the pipe. Express your answers using three significant figures separated by a comma O AED Ivec ROO? MPа Submit Figure 1 of 1 > < Return to Assignment Provide Feedback
The built-up shaft consists of a pipe AB and solid rod BC. The pipe has an inner diameter of 20 mm and outer diameter of 28 mm. The rod has a diameter of 12 mm. determine the average normal stress at points D and E and represent the stress on a volume element located at each of these points.