(a) Determine the strain energy of a solid brass circular shaft ABC loaded as shown in...
A solid 70-mm-diameter cold-rolled brass [G = 38.4 GPa] shaft that is 1.13 m long extends through and is completely bonded to a hollow aluminum [G = 25.6 GPa] tube. Aluminum tube (1) has an outside diameter of 98 mm, an inside diameter of 70 mm, and a length of 0.73 m. Both the brass shaft and the aluminum tube are securely attached to the wall support at A. Assume L1=0.73 m, L2=0.4 m, TB=25 kN-m, and TC=7 kN-m. When...
PROBLEM 3.17 The solid shaft shown is formed of a brass for which the stress concentrations, determine the smallest diameters daB and T 1200 N T-400N- allowable shearing stress is 55 MPa. Neglecting the effect of dac for which the allowable shearing stress is not exceeded. 50 mm BC
(2) The shaft is made from a solid steel section AB and a tubular portion made of steel and having a brass core. If it is fixed to a rigid support at A, and a torque of T= 50 N.m is applied to it at C, determine the angle of twist that occurs at C and compute the maximum shear stress and maximum shear strain in the brass and steel. Take Gsi = 75 GPa, Ghr = 37.5 GPa. 800...
The power loading on a uniform shaft of 20 mm diameter solid circular cross section is shown in Figure 2. The speed of the shaft is 1200 rpm. The shear modulus (G) of steel may be taken as 80 GPa C (a) Sketch the torque diagram; (b) Determine the maximum shear stress in the shaft (c) Calculate the angle of twist between the two ends of the shaft 1.2 m 1.8 m 6 kW 11 kW A Тв TA Tc...
Axial (Normal) Stress, Strain and Deformation The system is loaded and supported as shown. The system is made of Brass, E, 98.9 GPa, is a solid shaft and has a diameter of d 27 mm. 9 kN 10 kN A D B 6 kN E 15 kN 9 kN 10 kN + En: 2010) 629) 145 mm 85 mm 50 mm 60 mm See hon in cd P tol15 P-a3 -33-0.056 T-P/A Calculate the axial normal stress in section CD,...
A ductile solid circular loar of 0,2 m in diameter is loaded as shown in the figure. The tensile stress-strain response of the bar is shown in the figure. Determine the following: a) Stress State at point A. b) Principal strains and absolute maximum shear strain using Mohr's arde c) Find out whether the barwill fail based Von Mises failure critenia, on 204 70- 60- 5m A 20- 10- 52N T 0.005 0.015 아이 OKNom 5kv.ml -2 KN
3. Power transmission is an important engineering application and relies on the integrity of the shaft designs. Assume a solid, circular steel shaft with a uniform diameter d 50 mm and a total length I3 m. At its midpoint, a belt passes over a pulley and delivers 50 kW power to the shaft. This power is used to drive two machines at either end of the shaft. Machine 1 consumes P1 20 kW and machine 2 uses P230 KW. The...
4.11. A shaft ABC is made of two segments AB and BC (Figure 4. 11). Segment 4B is solid with a diameter of 100 mm and BC is hollowed with an outer diameter of 75 mm and wall thickness of 5 mm. The shear modulus is 80 GPa for segment AB and 60 GPa for BC Extemal torques To=25 Nm in the counter-clockwise direction is applied at Cand 1s=10 Nm in the clockwise direction is applied at B. A counter-clockwise...
I do not have more trials please solve for these four problems for me thanks!!! All components below are made of steel with E-200 GPa, G-80 GPa, v-0.25.6.-210 MPa Problem 3: A load of 500 KN is applied on the cube in the x-direction (Fig. 3). The cube is constrained in the 2-direction such that it cannot expend or contract in that direction. 1. Calculate o 2. Calculate the strain and the change in length in the x-direction 3. Calculate...
The gears attached to the fixed-end steel shaft are subjected to the torques shown in the figure. If the shear modulus of elasticity is 150 GPa a determine the following: nd the shaft has a diameter of 14 mm, a. Sketch the torque diagram along the steel shaft. b. Determine the maximum shear stress at Tmax and specify location. c. Sketch the shear stress distribution along the radial line at location specified in (b). d. Determine the displacement of the...