0.01 in. Figure P3.43 3.44 A solid circular steel (G= 12,000 ksi. E= 30,000 ksi) shaft...
A hollow steel [E-30,000 ksi] tube (1) with an outside diameter of 3.25 in, and a wall thickness of 0.209 in, is fastened to a solid 2.25-in.-diameter aluminum (E = 10,000 ksi] rod. The assembly is attached to unyielding supports at the left and right ends and is loaded as shown. Assume P-19 kips, Q-8 kips, L,-5 ft, L2-7ft, and L-7 ft. Determine (a) the stresses in all parts of the axial structure. (b) the deflections of joints B and...
A 1-in.-diameter steel shaft AB (G = 11 103 ksi, v=0.3) is fixed at end A and supports the two torques shown. Determine a) the maximum shear stress, b) the maximum normal stress in the shaft. 40 kipin. 60 kipin B 2 ft 2 ft
Aluminum Steel 22 Kip.ft 20 Kip.ft Question A 4 inch diameter composite shaft is subjected to the torques as shown. The section are perfectly bonded rigidly together. Use Gsteel = 11,600 ksi and Galuminum = 4000 ksi. Determine the maximum shearing stress in the shaft and the magnitude of the angle of twist of point D with respect to point A. 7.4 Kip.ft T - - 4.9ft 6.6 ft 3.3ft TP Shear Stress: t = Angle of Twist: Ø= Polar...
A ships solid circular drive shaft...
A ships solid circular drive shaft is of diameter, d 53 mm, and is subjected to a torque, T= 1512 Nm and an axial force, F-134 kN as shown. The shaft is made of steel with a yield stress of 350 MPa. Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle...
Problem 1 Section: An aluminum circular tube AB is connected to a square solid steel shaft CD through gears at B and C. Determine the angle of twist of both shafts and the maximum shear stress in both materials due to the torque applied at B. Assume linear elastic behavior. Diameter of gear at B - 18 in. UVO aluminum 50 k-ft AA TV 50 3 ft. steel 2 ft. Diameter of gear at C-8 in.
3.A solid steel shaft (see Figure Q3) free at the ends has a diameter of 25 mm. LBc 500mm and Lco 250mm. The torques experienced by the shaft are T1 300Nm T2 = 550Nm and T3 = 250Nm. The modulus of rigidity of the material is G- 100GPa BC CD Figure Q3 a) Find the values of the internal torques TBc and Tco taking the anticlockwise direction as positive b) What is the maximum shear stress experienced by the shaft?...
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...
A circular shaft AB consists of a 10-in.-long, 7/8-in-diameter steel cylinder (G=11.2x106 psi), in which a 5-in.-long, 5/8-in.-diameter cavity has been drilled from end B. The shaft is attached to fixed supports at both ends, and a 90 lb-ft torque is applied at its midsection (see Figure). Determine: 1. The reaction at each support. 2. The maximum shearing stress in shaft AB. 3. The maximum shearing stress in shaft BC. 5 in. 5 in. A с 90 lb. ft B
A vertical load P = 150 kN is applied to a circular solid shaft which in turn is supported by a circular end cap as shown below. Both members are made of steel with allowable normal stress = 160 MPa, allowable shear stress 100 MPa, and allowable bearing stress 200 MPa. Determine the minimum required diameter of the solid shaft, and the minimum required outer diameter and thickness of the circular end plate. P 150 kN ds d 30 mm...
1. A steel bar with solid circular cross section has a diameter d= 2.5 in., a length L = 60 in. and a shear modulus of elasticity G = 1 1.5 × 106 psi. The bar is subjected to torque T- 350 lb-ft as shown. (a) Find the angle of twist between the d 2.5 in (b) Find the maximum shear stress in the (c) Find the shear stress ta at a distance (d) Find the shear stress Tcenter at...