13.20 (33 points) A 3-in.-diameter shaft is supported by a bearing 3 in. in length with...
A 3-in.-diameter shaft is supported by a bearing 3 in. in length with a diametral clearance of 0.004 in. It is lubricated by oil that at operating temperature has a viscosity of 5 ureyn. The shaft rotates at 1800 rpm and carries a radial load of 1200 lb. Estimate the bearing coefficient of friction and the power loss using the Petroff approach.
3. A 100 mm diameter shaft is supported by a bearing 50 mm long with a minimum oil-film thickness of 0.02 mm and radial clearance of 0.06 mm. It is lubricated by SAE 30 oil. The bearing carries a load of 4 kN of at 900 rpm. Employing the design charts, determine The temperature of the oil film • • The coefficient of friction • The friction power
Q.3 Data for a Hydrodynamic Bearing which is designed is as follows: W-600lb, shaft radius = 1.5 in, L=1.5, viscosity = 5.0/1000000 reyn; RPM=1500 and diametral clearance-0.002 in. Find minimum film thickness, operating temperature and coefficient of friction. (7) Q.3 Data for a Hydrodynamic Bearing which is designed is as follows: W-600lb, shaft radius = 1.5 in, L=1.5, viscosity = 5.0/1000000 reyn; RPM=1500 and diametral clearance-0.002 in. Find minimum film thickness, operating temperature and coefficient of friction. (7)
A shaft inside the sleeve of a journal bearing is being rotated at 1500 rpm. The shaft is 6.00 cm in diameter and is rotating in a bearing sleeve that is 6.02 cm in diameter and 40 cm long. The clearance is filled with oil having properties of ν=0.003 m2/s and SG=0.88. a. Find the torque required to rotate the shaft. b. Find the power required to rotate the shaft. (Answer: 44.1 kW) c. Discussion: How do the torque and...
2. A shaft carrying a 10KN load is supported by two identical plain journal bearings. The shaft, which normally rotates at 3000 rev/min has, at the bearing region, a nominal diameter of 50 mm and a length of 16 mm. Starting with a radial clearance ratio of 0.0015 and neglecting thermal effects a) Calculate the temperature of the lubricant which will produce an eccentricity ratio of 0.7 if the oil used is SAE10 b) Comment of the necessity to supply...
A 3-inch diameter ground shaft rotates at 1000 rev/min in a lathe turned full journal bearing, which is 3 in long. SAE Grade 20 lubricant is used and the lubricant sump has a steady-state temperature of 100°F. The maximum lubricant temperature must not exceed 200°F. Analyze the assembly assuming average clearance and a H8/f8 clearance fit. Determine the following: a. The maximum radial load that the journal can carry and still operate under thick-film lubrication conditions. (6 points) b. The...
2. A shaft carrying a 10KN load is supported by two identical plain journal bearings. The shaft, which normally rotates at 3000 rev/min has, at the bearing region, a nominal diameter of 50 mm and a length of 16 mm. Starting with a radial clearance ratio of 0.0015 and neglecting thermal effects a) Calculate the temperature of the lubricant which will produce an eccentricity ratio of 0.7 if the oil used is SAE10 b) Comment of the necessity to supply...
A 5-cm-diameter shaft rotates at 4500 rpm in a 15-cm long, 8-cm-outer-diameter cast iron bearing (k =70 W/m.K) with a uniform clearance of 0.6 mm filled wwith tubricating oil (u 0.03 N.s/m2 and k 0.14 W/m.K). The bearing is cooled externally by a liquid, and its outer surface is maintained at 40°C. Disregarding heat conduction through the shaft and assuming one- dimensional heat transfer, determine (a) the rate of heat transfer to the coolant, (b) the sutacs temperature of the...
Assume Kr 1 and Ka In a journal bearing assembly, the shaft has a diameter of 88.900 mm and a bilateral tolerance of + 0.076 mm. The bushing bore diameter is 89.027 mm with a unilateral tolerance of +0:0.119 mm. The bushing length is 50 mm. The SAE 30 oil has an average operating temperature 60°C. For a minimum radial clearance, a speed of 1000 rev/min, and a radial load of 20 kN, find the maximum bearing pressure and its...
PROBLEM 4: Calculate the diameter D of the rotating shaft, supported on each end by a radial bearing, to obtain infinite life with a safety factor of 1.2. The shaft is machined from AISI 1040 HR steel, and is subject to a bending moment caused by a static force F-4 KN. The radius r is 0.05D. The length of the shaft L 0.5 m. The shaft rotates at in 1 ㄧㄒㄨ D. In 1000 RPM. Assume full notch sensitivity q...