Applied Mechanics of Materials. Need Help (c) The outer diameter and thickness of an air compressor...
Mechanics and Material Help Question 4. (e) The outer diameter and thickness of an air compressor tank are 25 in and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop and longitudinal stresses acting at point B. (15 points) .B
(c) The outer diameter and thickness of an air compressor tank are 25 in. and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop and longitudinal stresses acting at point B. (15 points) B
Question 4. (c) The outer diameter and thickness of an air compressor tank are 25 in. and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop and longitudinal stresses acting at point B. (15 points)
Question 4. (c) The outer diameter and thickness of an air compressor tank are 25 in. and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop and longitudinal stresses acting at point B. (15 points) B
Question 4. (C) The outer diameter and thickness of an air compressor tank are 25 in. and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop and longitudinal stresses acting at point B. (15 points) .B
Part A The tank of the air compressor subjected to an internal pressure of 96 psi . The internal diameter of the tank is 22 in., and the wall thickness is 0.25 in. (Figure 1) Determine the hoop stress acting at point A. Express your answer to three significant figures and include the appropriate units. Li HA ? 0,= Value Units Submit Request Answer Figure Part B 1 of 1 Determine the longitudinal stress acting at point A. Express your...
Applied Mechanics of Materials. Need Help!! (a) A steel tube having inner and outer dimeters of 1.5 in, and 2 in., respectively, is turning at 45 rev/min. If the allowable shear stress (Tallow) of the tube material is 10 ksi, determine the horse power (hp) transmitted by the tube. (20 points)
A cylindrical pressure vessel of 250 mm mean diameter and 6 mm wall thickness is fabricated from a 1.2 m length of spirally welded pipe AB as shown. Tank gauge pressure is 4 MPa and centric axial forces P and P1 of 240 kN act through rigid end plates. Determine: (a) Net longitudinal and hoop stresses. (b) Normal stress acting perpendicular to weld and shear stress parallel to weld (show sketch of Mohr’s circle). (c) Determine the Factor of Safety...
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 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...