In Figure 2, a strain gage forms an angle, ß, of 20° with a horizontal plane...
In Figure 2, a strain gage forms an angle, β, of 20° with a
horizontal plane to measure the gage pressure in a cylindrical
steel tank. The tank wall is 10mm thick, has a 520mm inner
diameter, and is made of an iron alloy with E = 350 GPa and v =
0.42. Using this, find the pressure in the tank when the strain
gage reads +245µ.
Figure 2
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 cylindrical pressure vessel shown in the figure has an
inside diameter of 980 mm and a wall thickness of 12 mm. The
cylinder is made of an aluminum alloy that has an elastic modulus
of E = 72 GPa and a shear modulus of G = 27.5
GPa. Two strain gages are mounted on the exterior surface of the
cylinder at right angles to each other. The angle θ is 21°. If the
pressure in the vessel is 1.86...
Question 2 The cylindrical pressure veese shown in the figure has an inside diameter of 910 mm and a al thickness of 10 mm. The cylinder is made of an aluminum alloy that has an elastic modulus of E = 70 GPa and a shear modulus of G = 27.0 GPa mounted on the exterior surface of the cylinder at right angles to each other. The angle θ is 28°. If the pressure in the vessel is 1.69 MPa. determine:...
please help ASAP
1.5-7 A hollow, brass circular pipe ABC (oce figure supports a load P, 118 kN acting at the top A second load P -98 kN is uaiformly distributed around the cap plate at B. The diameters and thicknesses of the upper and lower parts of the pipe are 31 mm ,,-12 mm, dae" 57 mm, and tac· 9 mm, respectively. The modulus of clasticity is 96 GPa. When both loads are fully applied, the wall thickness of...
I need help to write a nice introduction for experiment 6
please ( no hands write ) typing
Thank you
HEAT TREATMENT OF STEELS EXPERIMENT 6 EXPERIMENT 6 HEAT TREATMENT OF STEELS THEORY The Effect of Cooling Rate One of the most convenient methods for controlling the properties of a given steel, i.e., a steel whose composition is already fixed, consists of austenizing the steel and ten cooling to room temperature at some predetermined rate. A variation of cooling rates...