Q2. Figure Q2 shows a cylindrical pressure vessel made by welding semi-spherical caps to a cylindrical...
Could you solve the above questions in the photo? H7102 PRINCIPLES AND APPLICATIONS OF STRENGTH OF MATERIALS Q2. Figure Q2 shows a cylindrical pressure vessel made by welding semi-spherical caps to a cylindrical body. The cylindrical part has inner diameter Di = 1.8 m and the wall thickness, t, is uniform and equal to 6 mm. The internal pressure is p = 1.5 MPa. a) Determine the maximum and minimum direct stresses in the cylinder wall. What is their direction?...
Consider the cylindrical pressure vessel below which is holding shielding gas for a welding operation. Assume the vessel has an outer diameter of 12.0 in and a wall thickness of 0.050 in. this classifies the vessel as thin. Determine the hoop/tangential normal stress in the vessel when it is holding an internal pressure of 300 psi Clear show work pls Mechanical of materials
em 35? ? A cylindrical pressure vessel is constructed from a long, narrow steel plate by wrapping the plate around a mandrel and then welding along the edges of the plate to make a helical joint. The helical weld makes an angle ? 350 with the axial direction. The vessel has inner radius r = 1.8 m and wall thickness 20 mm. The material is steel with E 200 GPa and Poisson ratio 0.3. The internal pressure p = 800...
0.10m Assuming the surface of an Aluminum (E-70 Gpa and v = 0.30) cylindrical pressure vessel is in a state of plain stress, with an internal gas pressure of P - 8 MPa. Determine the strain in the z-direction (z) if the "hoop" stress and "longitudinal" stress of the vessel are defined as: OLA P-r Pr and ơL--2t if the radius of the pressure vessel is r-0.04 m and the wall thickness is t 0.004 mm. Note: the image to...
n 1 A cylindrical pressure vessel is fabricated from steel plating that has a diameter of 1.5 m, and is subjected to an internal pressure of 2.5 MPa. Calculate its safe wall thickness if the longitudinal stress is limited to 70 MPa. out of
Multiple Choice The stress developed in a cylindrical pressure vessel along the longitudinal axis is: a. Double the stress developed along the hoop axis b. Equal to the stress developed along the hoop axis c. Half the stress developed along the hoop axis d. None of the above QUESTION 12 The stress developed in a cylindrical pressure vessel along the longitudinal axis is: a. Proportional to the thickness of the vessel wall b. Half the stress developed along the hoop...
A cylindrical pressure vessel is constructed by welding steel plates together. The pressure vessel supports an internal pressure of 240 (psi). In addition the pressure vessel supports an axial load of 270000 (lbs.). The inner radius of the pressure vessel is 48 (inches) with a wall thickness of 0.3125 (inches). The plates are welded at 72 degrees from the horizontal. Determine: a) the stresses perpendicular and parallel to the weld. Show the stresses on a properly oriented differential element. The...
A strain gauge affixed to the outside of a cylindrical pressure vessel at an angle of θ = 35° reads ε = 400 μm/m. The outside diameter of the vessel is 500mm and the wall thickness is 5 mm. If the veseel is constructed of A36 steel, determine the following: a) The hoop and longitudinal stresses in the tank. Hints: To solve you will need to consider the equations for strain transform and generalized Hooke’s Law. The hoop and longitudinal...
Question 6.102 A spherical pressure vessel of ... TRANSF PROBLEMS 6.100 Determine the normal stress in a basketball of 12-in. diameter and 0.1-in. wall thickness which has been inflated to a gage pressure of 15 psi. 6.101 A spherical gas container made of steel is 20 ft in diameter and has a uniform wall thickness of 16 in. Knowing that the internal pressure is 75 psi, deter mine the maximum normal stress and the maximum shearing stress in the con...
Q3 (30) A cylindrical pressure vessel is constructed from a long, narrow steel plate by wrapping the plate around a mandrel and then welding along the edges of the plate to make a helical joint α 55° with the longitudinal axis. The vessel has inner radius r-1.8 m and wall thickness t 20 mm. The material is steel with modulus E: 200 GPa and Poisson's ratio0.30. The internal pressure p is 800 kPa Helical weld . The helical weld makes...