Question

py TH Fe = 550N Fy = 350N P = - 4000N L=Oolm : 0.0075m Point c lies an angle of 30° from + Z axis Find state of stress assuming Plane Stress is present. Jy=? T2y = ? 2 Assome point c is a crack with angle o and r s redge. Transrom the stress to be 0= 30° in plane with the crack TA A01 Find : on T I Tnt

A cylindrical rod (L = 0.1) (r=7.5mm) is fixed on a wall. A point c lies on its radius an angle (theta =30 degrees) from the positive Z axis.

1) Find the state of stress of a cubic element at location c assuming its in plane stress. Transverse shear for the circular crossection can be assumed to be tau = 4V/3A where V is the shear load and A is the area.

2) Assume C is now a small crack at angle (theta =30 degrees) from the positive Z axis located on the outer radius. Use a 2D stress transformation to tranform the stresses to find stress in the n direction, stress in the t direction, and shear in the t-n plane.

Answer 1

Y 4000N - - =75mm Dd- 15mm 550N L=100mm 350N V=75mm Effect of various Loads at 'c (J.) 4000N: This load will induce compressi load will induce compressive stress in X-direction Ocomp) = 4000 = 22-635 N/mm2 1400014 TX7.52 2) 350N: This load will itroduce a bending stress in a and a transverse roduce a bending stress in X-dim shear stress in Y-dirn. Using Bending Equation -0% = M = - Ox = (350x100) Yc INA 7.5 sin30° Ix 154 64 Bending Stress = -52-816 N/mm2 en shows Compressive nature Shear Stress => T = 4x 350 3 TTX 7-52 = 2.640 N/mm2. (in y-dirn] (3) 550 N: This load will introduce bending stress in X-dirn and a tansverses Stress in Z-direction. 02= -0% - 550X100 143.754 N/mm2. -7.5 C0530 %4*154 => x = 143 754 Nimm2. Shear → Ty= 4x 550 = 4:149 Hlmm?[in Z-dir] stress 3 TX7.52 . State of Stress at C. 0x = 22.635+ (-52-816) + 143754 = 68.303 Mmm2. Tzy = 26402 + 4:1492 = 4.917 H/mm2. - Tyz oy=0 68-303. N/mm² i 1 0x = 68-303 mm2 t-to-Ex Please Repost the Tyz = 4.917 N/mm2. problem for and part