![A pressure vessel with dimensions do 5 in and t 3/32 in is put under the following combined loading: internal pressure P380 psi, axial load F7 kips and torque T 900 ft #. a.) Check that the pressure vessel can be classified as thin walled b.) Calculate all the types of stresses c.) Draw the stress element with values d.) Combine the stresses to determine the maximum shear stress Tmax [psi] e.) Determine the safety factor N given that the part has a yield strength Sy -20 ksi f.) Comment on the safety factor](http://img.homeworklib.com/questions/49e67740-ac5d-11eb-af7f-a73838bff544.png?x-oss-process=image/resize,w_560)
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A pressure vessel with dimensions do 5 in and t 3/32 in is put under the...
A cylindrical pressure vessel is constructed by welding steel plates together. The pressure vessel supports an...
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...
Problem 31 Determine the normal stress in the wall of the spherical thin walled pressure vessel....
Problem 31 Determine the normal stress in the wall of the spherical thin walled pressure vessel. a) 40,000 psi 500 psi internal gas pressure in b) 20,000 ksi c) 20,000 psi d) 10,000 psi e) None of the above 40 in
A thin-walled pressure vessel is constructed with a helical weld at an angle a = 70°...
A thin-walled pressure vessel is constructed with a helical weld at an angle a = 70° from the longitudinal axis. The welded vessel has an internal radius of r = 48 inches and a thickness 1 = 0.12 inch. The gas pressure inside the vessel is 250 psi. Determine the normal and shear stresses, on and ts, along the weld line. Helical weld Figure 2
A pressurized pipe with an outside diameter of 13.1 in. and a wall thickness of 0.375...
A pressurized pipe with an outside diameter of 13.1 in. and a wall thickness of 0.375 in. is subjected to an axial force of P = 34000 lb and a torque of T = 9400 lb-ft, as shown. If the internal pressure in the pipe is 260 psi, determine the principal stresses (Opl > 002), the maximum in-plane shear stress Tmax, and the absolute maximum shear stress tabs max on the outside surface of the pipe. Answers: Opl = i...
please make your answers clear and organized . Problem 8.5-3 A cylindrical pressure vessel having radius...
please make your answers clear and organized .
Problem 8.5-3 A cylindrical pressure vessel having radius r-300 mm and wall thickness t 15 mm is subjected to internal pressure p 2.5 MPa. In addition, a torque T120 kN-m acts at each end of the cylinder (see figure) (a) Determine the maximum tensile stress ?mix and the maximum in-plane shear stress Tmax in the wall of the cylinder torque T? 30 MPa and 76 MPa, respectively, what is the minimum required...
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...
12 Section 4. Problem 12 (25 pts.) A cylindrical pressure vessel is constructed by welding steel...
12 Section 4. Problem 12 (25 pts.) A cylindrical pressure vessel is constructed by welding steel plates together. The pressure vessel supports an internal pressure of 250 (psi). In addition the pressure vessel supports an axial load of 230000 (lbs.). The inner radius of the pressure vessel is 56 (inches) with a wall thickness of 0.4375 (inches). The plates are welded at 57 degrees from the horizontal. Determine: a) the stresses perpendicular and parallel to the weld. Show the stresses...
A strain gauge affixed to the outside of a cylindrical pressure vessel at an angle of...
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...
The thin walled pressure vessel with closed ends shown below is under an internal pressure of...
The thin walled pressure vessel with closed ends shown below is under an internal pressure of P 6 MPa. If the pressure vessel has a radius of r 15 degrees from the longitudinal axis (i.e 144 mm and a wall thickness of t = 5 mm, what is the magnitude of the shear angle stress at an - T x'v). Ensure your answer is in MPa. у у' x x
A thin-walled closed-end pressure vessel of radius r= 120 mm and wall thickness t= 5 mm...
A thin-walled closed-end pressure vessel of radius r= 120 mm and wall thickness t= 5 mm is subjected to the tensile force P and internal pressure pi = 4MPa. Assume that the cross-sectional area A = 2hrt 199999997 P TE P P (a) The material of the vessel will fail if the maximum tensile stress exceeds 100MPa. Determine the maximum value of P so that the vessel will not have a tensile failure. (b) Calculate the maximum shear stress in...
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...
Problem 31 Determine the normal stress in the wall of the spherical thin walled pressure vessel. a) 40,000 psi 500 psi internal gas pressure in b) 20,000 ksi c) 20,000 psi d) 10,000 psi e) None of the above 40 in
A thin-walled pressure vessel is constructed with a helical weld at an angle a = 70° from the longitudinal axis. The welded vessel has an internal radius of r = 48 inches and a thickness 1 = 0.12 inch. The gas pressure inside the vessel is 250 psi. Determine the normal and shear stresses, on and ts, along the weld line. Helical weld Figure 2
A pressurized pipe with an outside diameter of 13.1 in. and a wall thickness of 0.375 in. is subjected to an axial force of P = 34000 lb and a torque of T = 9400 lb-ft, as shown. If the internal pressure in the pipe is 260 psi, determine the principal stresses (Opl > 002), the maximum in-plane shear stress Tmax, and the absolute maximum shear stress tabs max on the outside surface of the pipe. Answers: Opl = i...
please make your answers clear and organized .
Problem 8.5-3 A cylindrical pressure vessel having radius r-300 mm and wall thickness t 15 mm is subjected to internal pressure p 2.5 MPa. In addition, a torque T120 kN-m acts at each end of the cylinder (see figure) (a) Determine the maximum tensile stress ?mix and the maximum in-plane shear stress Tmax in the wall of the cylinder torque T? 30 MPa and 76 MPa, respectively, what is the minimum required...
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...
12 Section 4. Problem 12 (25 pts.) A cylindrical pressure vessel is constructed by welding steel plates together. The pressure vessel supports an internal pressure of 250 (psi). In addition the pressure vessel supports an axial load of 230000 (lbs.). The inner radius of the pressure vessel is 56 (inches) with a wall thickness of 0.4375 (inches). The plates are welded at 57 degrees from the horizontal. Determine: a) the stresses perpendicular and parallel to the weld. Show the stresses...
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...
The thin walled pressure vessel with closed ends shown below is under an internal pressure of P 6 MPa. If the pressure vessel has a radius of r 15 degrees from the longitudinal axis (i.e 144 mm and a wall thickness of t = 5 mm, what is the magnitude of the shear angle stress at an - T x'v). Ensure your answer is in MPa. у у' x x
A thin-walled closed-end pressure vessel of radius r= 120 mm and wall thickness t= 5 mm is subjected to the tensile force P and internal pressure pi = 4MPa. Assume that the cross-sectional area A = 2hrt 199999997 P TE P P (a) The material of the vessel will fail if the maximum tensile stress exceeds 100MPa. Determine the maximum value of P so that the vessel will not have a tensile failure. (b) Calculate the maximum shear stress in...
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