PROBLEM 3
Knowing that for the cantilever beam shown in Figure 3, the allowable stress is 120 MPa in tension and 150 MPa in compression, determine the largest couple M that can be applied.
PROBLEM 3 Knowing that for the cantilever beam shown in Figure 3, the allowable stress is 120 MPa in tension and 150 MPa in compression, determine the largest couple M that can be applied. Figure 3 (...
PROBLEM 3 Knowing that for the cantilever beam shown in Figure 3, the allowable stress is 120 MPa in tension and 150 MPa in compression, determine the largest couple M that can be applied. Figure 3 (b) Section a-a (dimension not to scale) "Х Figure 3(c) 610UB125 Figure 3(d) 300PFC dt(X10s yo section | x | y (x106 2 mm 986 72.4 610UB125 1600022961219.6 11.9 5110 90 300 16 39.3 4.04 300PFC 24.1 Figure 3 (a)Cantilever beam 300PFC 610UB125 Figure...
4kN 150 mm 2kN Problem 1, subjected to two concentrated forces and has a as shown in the figures The cantilever beam, (fixed at A)s 0 mm30 mm -30 mm (a) Determine the maximum shear stress on the section (b) Determine the maximum bending stress in compression and in tension (c) If the allowable bending stress (for tension and compression) is ơao.-6 MPa, calculate the new minimum required section modulus. 4kN 150 mm 2kN Problem 1, subjected to two concentrated...