Problem 1 (50 points) A countershaft carrying two V-belt pulleys is shown in the figure. Pulley...
A countershaft, made of AISI 1035 CD steel, carrying two V-belt pulleys is shown in the figure. Pulley A receives power from a motor through a belt with the belt tensions shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at B is 25 percent of the tension on the tight side (F2 - 0.25 F) 1) Based on the equations for yielding conditions discussed...
A countershaft carrying two V-belt pulleys is shown in the figure. Pulley A receives power from a motor through a belt with the belt tensions shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at B is 15 percent of the tension on the tight side. Yield of the Shaft ?? = 560 ??? a) Determine the tensions in the belt on pulley B, assuming...
A countershaft carrying two V-belt pulleys is shown in figure 1 (dimensions in inches). Pulley A receives power from a motor through a belt with the belt tensions shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at B is 15 percent of the tension on the tight side. a) At the point of maximum bending moment, determine the principal stresses and the maximum shear...
A countershaft carrying two V-belt pulleys is shown in the figure. Pulley A receives power from a motor through a belt with the belt tensions shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at Bis 15 percent of the tension on the tight side. For the steel countershaft shown in the figure below, find the slope of the shaft at each bearing. Use superposition...
Problem 2: (Problem 3.79 in the book) A countershaft carrying two V-belt pulleys is shown in the figure. Pulley A receives power from a motor through a belt with the belt tensions shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at B is 15 percent of the tension on the tight side. (a) Determine the tensions in the belt on pulley B, assuming the...
The figure is a schematic drawing of a countershaft that pulley, the belt tensions are parallel. For pulley A consider the loose belt tension is 15 percent of the tension on the tight side. A cold-drawn UNS G10180 steel shaft ((Sy 370 MPa) of uniform diameter is to be selected for this application. For a static analysis with a factor of safety o determine the minimum preferred size diameter using: (a) Distortion-energy theory, (b) Maximum s. supports two V-belt pulleys....
6 dia 300 Ibf 50 lbf T. . 1 dia 8 dia A countershaft carrying two V-belt pulleys is shown in the figure. Pulley A receives power from a motor through a belt with the belt tension shown. The power is transmitted through the shaft and delivered to the belt on pulley B. Assume the belt tension on the loose side at B is 15% of the tension on the tight side. 3. (5) Determine the tensions in the belt...
The figure is a schematic drawing of a countershaft that supports two V-belt pulleys. Thecounterchae rpm and the bearings are to have manufacturer 2 in Table 11-6 The belt tension on the loose side of pulley runs at 2000 alife of 80 kh at a combined reliability of 0.98, assuming distribution data from A is f % of the tension on the tight side. GIVEN: W L andf- 19 a) Select deep-groove bearings from Table 11-2 for use at O...
Q2. Figure Q2 shows a shaft which transmits a power of 48 kW through flat belts. Pulley A is driven by a motor which rotates at 3000 rpm. The diameter of pulley A is 400 mm and that of pulley B is 250 mm. The thickness of the belts is 4 mm and they are made of a material with density of 1100 kg/m3. Assume no sliding between pulleys and belts a) Calculate the speed of the belt and the...
A countershaft in a machine has two pulleys mounted on it for power transmission and is supported by cylindrical roller bearings at the ends. The countershaft runs at 1,500 revolutions per minute. The belt tension on the loose side of Pulley B is 20% of the tension on tight side. Design the shaft, mounting components. The design will include the following items. (1) Shaft material selection based on strength and cost considerations. (Give a comparison b/w at least two possible materials) (2) Shaft...