A 304 ball bearing carries a radial load of 667 lb and an axial load o...
fast please CHAPTER 9 9.1. A ball bearing is subjected to a radial load of 2884pounds for 40% of the time and 1884pounds for the remainder of the load cycle. Speed is 1884rpm. Expected life is to be 10 years at 250 days per year and 6 hours per day. Calculate the minimum value of the basic load rating that the bearing must have. All loads are steady.
Final Exam, Spring 2oTg Grade: Student Name: Problem #1 (50 point): An SKF ball bearing has an axial load F. of 500 Ibr and a radial load F, of 600 Ibr applied with inner ring rotating. The basic static load rating Co is 4250 lbr and the basic dynamic load rating Co is 7600 lb. Find the equivalent radial load Fe, and estimate the Xio life (in hours) at a speed of 600 rev/min. Final Exam, Spring 2oTg Grade: Student...
A radial, deep grove ball bearing is specified from a manufacturer’s catalog based on a L10 life of 106 cycles. The bearing has a basic load rating of 2,500 N and is to be used in an application where the design radial load is 350 N and the axial load is zero. What is the predicted life (hours of the bearing if the inner race of the bearing rotates at 1,800 rpm? A.70 B. 3,400 C. 200,000 D. 160
A 02-series angular contact ball bearing with a 10-mm bore is loaded with a 0.3604 kN axial load and 100 kN radial load. The inner ring rotates at 8000 rev/min and working 2000-hour service. For Rd = 93% and af = 1. (a) Determine the equivalent radial load that will be experienced by the bearing. (b) Consider a rating rated life of 10^6 revolutions find C10 load experienced by bearing and calculate the factor of safety in carrying the load...
) Given: You have to use a series 02 deep grove ball bearing with a C10 rating of 30.7KN and a catalog life rating of 106 cycles. The inner ring rotates and the reliability is 90%. You want the bearing to last 4000hrs at 1200RPM. What is the Fo (desgin rating). Given: You have to use a standard series 02 deep groove ball bearing. Your design radial force is 650Lb and your design life is 25Khrs. The torque being transmitted...
An angular contact ball bearing with outer ring stationary is loaded with a 2,8 kN axial load and a 6,4 kN radial load. The inner ring 13. rotates at 480 revimin. Application factor is 1. Desired life is 20 kh under 90% reliability (C10=62 KN CO=36 kN). Evaluate the equivalent radial load factor (e) A) 0 273 B) 0.263 C) 0,275 D) 0.265 E) 0.277
mechanical Desgin 2 11 - 20: A single-row deep-groove ball bearing with a 65-mm bore (see Tables 11-1 for specifications) is loaded with a 3-KN axial load and a 7-KN radial load. The outer ring rotates at 500 rev/min. (a) Determine the equivalent radial load that will be experienced by this particular bearing. (b) Determine whether this bearing should be expected to carry this load with a 95 percent reliability for 10 kh.
Problem #2 (50 point): A certain application requires a ball bearing with the inner ring rotating, with a design life of 40000 hr at a speed of 350 rev/min. The radial load is 2.15 kN and an application factor of 1.3 is appropriate. The reliability goal is 0.90. Find the multiple of rating life required, Xo, and the catalog rating Cio with which to enter a bearing table. Choose a 02-series deep-groove ball bearing from Table 11-2, and estimate the...
If we desire that a AFBMA system ball bearing can take a radial load F 5 kN with a design Li life of 15000 hours at a speed of 3600 rpm. The application factor is ar-I.2. If the bearing maker's catalog ratingss are based on a L life of/ million revolutions. The three Weibull parameters are x, -0.02, (0-x,)- 4.439, and b-1483 The minimum required catalog (for / millionrevolutions) loaa rating C0 should be equal to )(A) A s V....
tables that would help u Q-4 An 02-series single-row deep-groove ball bearing with a 30-mm bore (see Tables 11-1 and 11-2 for specifications) is loaded with a 2-kN axial load and a 5-KN radial load. The inner ring rotates at 400 rev/min. (a) Determine the equivalent radial load that will be experienced by this particular bearing. [15 pts.] (6) Determine the predicted life (in revolutions) that this bearing could be expected to give in this application with a 99 percent...