Fatigue Prediction of Thin Hard Coatings on the Steel Races of Hybrid Bearings Used in High Speed Machine Tool Spindles-Reference-Cited by-同舟云学术

Fatigue Prediction of Thin Hard Coatings on the Steel Races of Hybrid Bearings Used in High Speed Machine Tool Spindles

Published:1998-10-01 Issue:4 Volume:120 Page:835-842
ISSN:0742-4787
Container-title:Journal of Tribology
language:en
Short-container-title:

Author:

Bouzakis K.-D.¹,Vidakis N.¹,Mitsi S.¹

Affiliation:

1. Laboratory for Machine Tools and Manufacturing Engineering, Department of Mechanical Engineering, School of Engineering, 54006 Aristoteles University, Thessaloniki, Greece

Abstract

The rotational speed requirements of high speed spindles led to the development of angular contact hybrid bearings with ceramic balls and PVD coated steel races. The present paper describes the determination and verification of critical coating fatigue stresses as well as their application in coating fatigue calculations of hybrid bearing steel races. The fatigue limits of low temperature deposited PVD coatings were determined by the application of the impact test and its FEM simulation and validated through their successful application to the prediction of coating life in rolling contact fatigue tests of coated specimens. Furthermore, a computer program that performs the quasi-static simulation of bearing operation yields the necessary kinematic and dynamic parameters for a FEM simulation of the stress field occurring in coated rings. For the investigated bearings, an adequate fatigue performance of their coated races was computationally exhibited. The PVD coated hybrid bearings illustrated the predicted behavior in long duration tests, conducted in full scale test rigs.

Publisher

ASME International

Subject

Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanical Engineering,Mechanics of Materials

Link

http://asmedigitalcollection.asme.org/tribology/article-pdf/120/4/835/5549377/835_1.pdf

Reference19 articles.

1. Bouzakis, K. D., et al., 1997, “Determination of the Fatigue Properties of Multilayer PVD Coatings on Various Substrates, Based on the Impact Test and its FEM Simulation,” Thin Solid Films, pp. 308–309:315–322.

2. Bouzakis K. D. , and VidakisN., 1997, “Prediction of the Fatigue Behaviour of Physically Vapour Deposited Coatings in the Ball-on-Rod Rolling Contact Fatigue Test, Using an Elastic Plastic Finite Elements Method Simulation,” Wear, Vol. 206, pp. 197–203.

3. Bouzakis K. D. , et al, 1996a, “Determination of the Fatigue Behaviour of Thin Hard Coatings Using the Impact Test and a FEM Simulation,” Surface and Coatings Technology, Vol. 86-87, pp. 549–556.

4. Bouzakis, K. D., and Vidakis, N., 1996b, “Determination of Plastic Behaviour of Hard Materials Using the Rockwell B Test and a FEM Simulation,” Proc. of the 2nd Intern. Trib. Conf BalkanTrib96, Thessloniki, pp. 448–461.

5. Bouzakis, K. D., et al., 1996c, “Determination of Friction Torque of Angular Contact Ball Bearings, Considering Different Friction Coefficient Models,” Proc. of the 2nd Intern. Trib. Conf. BalkanTrib96, Thessaloniki, pp. 667–678.

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