A 1-in, constant diameter shaft is loaded with forces at A and B as shown, with...
A rotating step shaft is loaded as shown, where the forces FA and FB are constant at 600 lbf and 300 lbf, respectively, and the torque T alternates from 0 to 1800 lbf in. The shaft is to be considered simply supported at points 0 and C, and is made of AISI 1045 CD steel with a fully corrected endurance limit of Se = 40 kpsi. Let Ki = 2.1 and K = 1.7. For a design factor of 2.5...
A rotating step shaft is loaded as shown, where the forces FA and FB are constant at 610 lbf and 305 lbf, respectively, and the torque Talternates from 0 to 1800 lbf-in. The shaft is to be considered simply supported at points and Cand is made of AISI 1045 CD steel with a fully corrected endurance limit of Se= 40 kpsi. Let Kf= 2.1 and Kfs = 1.7. Take the value of design factor to be 2.5. 6 in 6...
A rotating step shaft is loaded as shown, where the forces FA and FB are constant at 600 lbf and 300 lbf, respectively, and the torque T alternates from 0 to 1800 lbf . in. The shaft is to be considered simply supported at points and C, and is made of AISI 1045 CD steel with a fully corrected endurance limit of Se = 40 kpsi. Let Kg = 2.1 and K = 1.7. For a design factor of 2.5...
Problem 3 (17 points) The two static forces are applied to a circular 1-in diameter shaft as shown. The shaft is made from 1045 CD Steel with a yield strength of 77 ksi. 8 in 1000 lbf 1 in dia. Cross section at the wall 800 lbf (2) a) Identify the location of the most critical stress element. (A. E, F or D?) (10) b) Determine the stresses and draw the stresses on the critical element identified in part a)....
please solve soon A machine element is loaded such that stress at a point are o1 20 kpsi , 02 = 0, and ga = -15 kpsi. The material has minimum yield strength in tension and compression of 60 kpsi. Determine the factor of safety using, a. Distortion-energy theory of failure- analytical approach b.Distortion-energy theory of failure- graphical approach 2 18* 12* A machine element is loaded such that stress at a point are o1 20 kpsi , 02 =...
The rotating solid steel shaft is simply supported by bearings at points B and C and is driven by gear (not shown) which meshes with the spur gear at D, which has a 150-mm pitch diameter. The force F from the drive gear acts at a pressure angle of 20". The shaft transmits a torque to point A of TA = 340 N.m. The shaft is machined from steel with Sy= 420 MPa and Sut = 560 MPa. The fatigue...
-600 h 1. A rotating step shaft is loaded as shown, where the forces F. and F: are constant at 600 lbf and 300 lbf, respectively, and the torque T alternates from 0 to 1800 Ibf in. The shaft is to be considered simply supported at points and C, and is made of AISI 1045 CD steel with a fully corrected endurance limit of Se = 40 kpsi. Let k, = 2.1 and K = 1.7. For a design factor...
7 30.10 Required information A rotating step shaft is loaded as shown, where the forces FA and Fg are constant ot 570 lbf and 285 lbf, respectively, and the torque alternates from 0 to 1800 lbf in. The shaft is to be considered simply supported at points and Cand is made of AISI 1045 CD steel with a fully corrected endurance limit of So" 40 kpsi. Let Kr 21 and Kis -17 Take the value of design factor to be...
A 20-mm-diameter steel shaft, made of AISI 1035 HR steel, transmits power while rotating at 400 rev/min. Assume any bending moments in the shaft to be relatively small compared to the torque. Determine how much power, in units of kW, the shaft can transmit with a static factor of safety of 1.5 based on (a) the maximum-shear-stress theory. (b) distortion-energy theory.
The shaft shown in the figure is machined from AISI 1040 CD steel and is supported in rolling bearings at A and B. The applied forces F1 = 1500 lbf and F2 = 3000 lbf are coming off of gears located at respective positions. The shaft rotates at 2000 rpm while transmitting 50hp between the gears. Determine the minimum fatigue factor of safety based on achieving infinite life using Modified- Goodman theory. If infinite life is not predicted, estimate the...