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The pressure tank shown below can be considered to be...
SIT 3. A compressed-air tank is supported by two cradles as shown. One of the cradles...
SIT 3. A compressed-air tank is supported by two cradles as shown. One of the cradles is designed so that it does not exert any longitudinal force on the tank. The cylindrical body of the tank has a 30-in. outer diameter and is made of a 3/8-in. steel plate by butt welding. The end caps are spherical and have a uniform wall thickness of 5/16 in. For an internal gage pressure of 180 psi, determine: 4. Then longitudinal stress in...
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure...
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure is 300Kpa, the outer diameter is 1.8m and thickness for the cylinder 75 mm and the sphere 95mm.
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure...
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure is 300Kpa, the outer diameter is 1.8m and thickness for the cylinder 75 mm and the sphere 95mm.
The thin-walled cylinder can be supported in one of two ways as shown in the figure...
The thin-walled cylinder can be supported in one of two ways as
shown in the figure below. Determine the state of stress in the
wall of the cylinder for both cases if the piston P causes the
internal pressure to be 62 psi . The wall has a thickness of 0.25
in. and the inner diameter of the cylinder is 8 in. (Figure 1)
A. Determine the hoop stress in the left cylinder in the
figure.
B. Determine the longitudinal...
1) A spherical storage tank, shown to the right, has an outer diameter of 20 ft....
1) A spherical storage tank, shown to the right, has an outer diameter of 20 ft. and a wall thickness 7/16 in. The internal pressure in the tank is 75 psi. Draw Mohr's circle for this problem (including the "3D" Mohr's circle). Determine the maximum normal stress and the maximum shear stress. Ans: max = 10.248 ksi, Tmax = 5.124 ksi
A pressure vessel of 12” outer diameter and 0.2” wall thickness is fabricated by welding plate...
A pressure vessel of 12” outer diameter and 0.2” wall thickness is fabricated by welding plate in spiral into a cylinder that is 4 feet long. The gage pressure inside the vessel is 800 psi and 15 kip axial compression forces are applied to the rigid end caps. Determine the a) the principle stresses in the walls of the vessel, b) the maximum shear stress in the wall of the vessel (in or out of plane), c) the stress normal...
A thin walled cylindrical tube open at both ends is made from a metal that has...
A thin walled cylindrical tube open at both ends is made from a metal that has a shear yield stress of k=550-MPa and has a diameter of 0.5-m. The maximum intended internal pressure during use is 35-MPa. If the cylinder tube is not to yield, what is its minimum wall thickness according to: a.) Von Mises yield criterion b.) Tresca’s yield criterion
Prob #4 A cylindrical thank is designed to withstand an internal pressure of3 MPa. The tank...
Prob #4 A cylindrical thank is designed to withstand an internal pressure of3 MPa. The tank has an inner diameter of 4 m and the wall thickness is 40 mm. The tank is fabricated by bolting together (on both sides of the vssel) two half-cylindrical longitudinal thin shell sections as shown. The diameter of the bolts is 25mm and the bolts are made from a material with allowable stress of 250 MPa 18. The hoop stress sustained by the tank...
1. The tank shown is 24 inches long, has 8- inch mean diameter, 0.1-inch wall thickness, and cont...
1. The tank shown is 24 inches long, has 8- inch mean diameter, 0.1-inch wall thickness, and contains 400 psi internal pressure. As part of a processing operation the tank is rapidly spun, which produces a torque of 16000 lb-inch at the section of interest. (a) determine the state of stress in the y-z plane at the point indicated (at the front surface of the tank) and indicate on a square differential element; (b) represent the state of stress on...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yie...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yield stress of 240 MPa. +F 200 mm Fig. Q5 (a) If a tensile axial force of 1MN is applied to the end plate, show that the maximum internal pressure that can be applied before the cylinder yields according to the Tresca criterion is 16.2...
SIT 3. A compressed-air tank is supported by two cradles as shown. One of the cradles is designed so that it does not exert any longitudinal force on the tank. The cylindrical body of the tank has a 30-in. outer diameter and is made of a 3/8-in. steel plate by butt welding. The end caps are spherical and have a uniform wall thickness of 5/16 in. For an internal gage pressure of 180 psi, determine: 4. Then longitudinal stress in...
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure is 300Kpa, the outer diameter is 1.8m and thickness for the cylinder 75 mm and the sphere 95mm.
Determine the stress for the cylindrical part and spherical end of tank shown. The gage pressure is 300Kpa, the outer diameter is 1.8m and thickness for the cylinder 75 mm and the sphere 95mm.
The thin-walled cylinder can be supported in one of two ways as
shown in the figure below. Determine the state of stress in the
wall of the cylinder for both cases if the piston P causes the
internal pressure to be 62 psi . The wall has a thickness of 0.25
in. and the inner diameter of the cylinder is 8 in. (Figure 1)
A. Determine the hoop stress in the left cylinder in the
figure.
B. Determine the longitudinal...
1) A spherical storage tank, shown to the right, has an outer diameter of 20 ft. and a wall thickness 7/16 in. The internal pressure in the tank is 75 psi. Draw Mohr's circle for this problem (including the "3D" Mohr's circle). Determine the maximum normal stress and the maximum shear stress. Ans: max = 10.248 ksi, Tmax = 5.124 ksi
A pressure vessel of 12” outer diameter and 0.2” wall thickness is fabricated by welding plate in spiral into a cylinder that is 4 feet long. The gage pressure inside the vessel is 800 psi and 15 kip axial compression forces are applied to the rigid end caps. Determine the a) the principle stresses in the walls of the vessel, b) the maximum shear stress in the wall of the vessel (in or out of plane), c) the stress normal...
Prob #4 A cylindrical thank is designed to withstand an internal pressure of3 MPa. The tank has an inner diameter of 4 m and the wall thickness is 40 mm. The tank is fabricated by bolting together (on both sides of the vssel) two half-cylindrical longitudinal thin shell sections as shown. The diameter of the bolts is 25mm and the bolts are made from a material with allowable stress of 250 MPa 18. The hoop stress sustained by the tank...
1. The tank shown is 24 inches long, has 8- inch mean diameter, 0.1-inch wall thickness, and contains 400 psi internal pressure. As part of a processing operation the tank is rapidly spun, which produces a torque of 16000 lb-inch at the section of interest. (a) determine the state of stress in the y-z plane at the point indicated (at the front surface of the tank) and indicate on a square differential element; (b) represent the state of stress on...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yield stress of 240 MPa. +F 200 mm Fig. Q5 (a) If a tensile axial force of 1MN is applied to the end plate, show that the maximum internal pressure that can be applied before the cylinder yields according to the Tresca criterion is 16.2...
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