- A thin-walled cylindrical pressure vessel made of titanium alloy Ti-6Al-4V with outside diameter Do= 720 mm and wall thickness oft = 6 mm is subjected to repeated pressurization service cycles from minimum zero to maximum 6 MPa pressure, P. It has static loads applied in the form of an axial tensile load, is of 300 kN, and an applied moment. hi. of 60 kN•m. It is designed fora service life, k. of 106 cydes. Perform analysis on a stress element on the OUTSIDE surface of the pressure vessel where the tensile stresses are maximum (element shown in the diagram below). a Perform fatigue analysis to determine the safety factors in stress, Xs, and life, XN. Use von Mises for effective stress amplitudes, and use the SWT equation for the mean stress equation to determine equivalent completely reversed stress amplitude. b. Use the octahedral shear stress yield criterion (von Mises) to determine the safety factor against yielding. c. Check for Leak-Before-Break-Criterion and determine the safety factor on crack length. X.. d. A rectangular strain gage rosette is glued to the pressure vessel with the middle gage oriented along the longitudinal-axis of the shaft as shown in the sketch below. Determine what the strain gages in the strain gage rosette would read (in microstrain) at the instant of maximum pressure during the pressurization cydes. Express your answers in the same units as those given: SI Units.
The following are the properties of the titanium alloy: E = 117 GPa; v = 0.361; fro = 1185 MPa; = 1233 MPa; aje = 1717 MPa a; = 2030 MPa; A = 1889 MPa; B = b = —0.104; = 60 MilaVisi