Sage Journals: Discover world-class research

Abstract

Methods utilising rigid preloading and constant preloading in ball bearing systems may not be adequate to address the optimisation of problems in which preloading occurs. This is because of non-uniform loading on the bearings that is induced by manufacturing error, assembly error and external loads. A non-uniform preload is presented for the analysis of non-uniform bearing loading. A simulation method is developed to determine the effects on non-uniform loading on bearing thermal performance under different preloads. A three-degree-of-freedom model is built to simulate the heat generation rate of angular contact ball bearings under non-uniform preloads. In this model, the non-uniform preload is divided equally into two parts: a uniform preload and an equivalent moment. The bearing heat generation rate can then be employed in finite element analysis software to simulate the temperature field associated with the entire ball bearing. The simulation data shows that non-uniform preloading conditions on ball bearings can decrease heat generation. The results also show that non-uniform preloads can alleviate heating concentrations and reduce peak temperature values under working conditions.

Keywords

Angular contact ball bearings bearing preload thermal characteristics non-uniform preload temperature field

Get full access to this article

View all access options for this article.

References

Cole

MOT

Keogh

Burrow

. The dynamic behavior of a rolling element auxiliary bearing following rotor impact. J Tribol-Trans ASME 2002; 124(2): 406–413.

Ozturk

Kumar

Turner

. Investigation of spindle bearing preload on dynamics and stability limit in milling. CIRP Ann-Manuf Technol 2012; 61(1): 343–346.

Hwang

Lee

. A review on the preload technology of the rolling bearing for the spindle of machine tools. Int J Precis Eng Manuf 2010; 11(3): 491–498.

Harris

Kotzalas

. Rolling bearing analysis, Fifth edition: Advanced concepts of bearing technology, Boca Raton: CRC Press, 2007.

Alfares

Elsharkawy

. Effects of axial preloading of angular contact ball bearings on the dynamics of a grinding machine spindle system. J Mater Process Technol 2003; 136(1): 48–59.

Spiewak

Nickel

. Vibration based preload estimation in machine tool spindles. Int J Mach Tool Manuf 2001; 41(4): 567–588.

Cao

Holkup

Altintas

. A comparative study on the dynamics of high speed spindles with respect to different preload mechanisms. Int J Adv Manuf Technol 2011; 57(9): 871–883.

Cao

Altintas

. A general method for the modeling of spindle-bearing systems. J Mech Des-Trans ASME 2004; 126(6): 1089–1104.

Cao

Altintas

. Modeling of spindle-bearing and machine tool systems for virtual simulation of milling operations. Int J Mach Tool Manuf 2007; 47(9): 1342–1350.

10.

Stein

. Model error compensation for bearing temperature and preload estimation. J Dyn Syst-Trans ASME 1996; 118(3): 43–53.

11.

Lin

. Model-based design of motorized spindle systems to improve dynamic performance at high speeds. J Manuf Process 2007; 9(2): 94–108.

12.

Takai

Khonsari

. Experimental testing and thermal analysis of ball bearings. Tribol Int 2013; 60: 93–103.

13.

Hwang

Lee

. Development of automatic variable preload device for spindle bearing by using centrifugal force. Int J Mach Tool Manuf 2009; 49(10): 781–787.

14.

Hwang

Lee

. Development of a newly structured variable preload control device for a spindle rolling bearing by using an electromagnet. Int J Mach Tool Manuf 2010; 50(3): 253–259.

15.

Choi

Lee

. A variable preload device using liquid pressure for machine tools spindles. Int J Precis Eng Manuf 2012; 13(6): 1009–1012.

16.

Chen

J-S

Chen

K-W

. Bearing load analysis and control of a motorized high speed spindle. Int J Mach Tool Manuf 2005; 45(12): 1487–1493.

17.

Jiang

Mao

. Investigation of variable optimum preload for a machine tool spindle. Int J Mach Tool Manuf 2010; 50(1): 19–28.

18.

Palmgren

. Ball and roller bearing engineering, Philadelphia, PA: SKF Industries, 1959.

19.

Ali

Garcia

. Experimental studies on the dynamic characteristics of rolling element bearings. Proc IMechE, Part J: J Engineering Tribology 2010; 224(7): 659–666.

20.

Movahhedy

Zahedi

. An investigation of contact angles in angular contact ball bearings accounting for high speed effects and preload. SAE Int J Passeng Cars – Mech Syst 2009; 2(1): 780–790.

Investigating effects of non-uniform preload on the thermal characteristics of angular contact ball bearings through simulations

Abstract

Keywords

Get full access to this article

References