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Journal of Materials Engineering and Performance

Published in:

26-04-2018

Study on the Correlation Between Dynamical Behavior and Friction/Wear Mechanism Under the Effect of Grooves

Authors: Z. Y. Zhu, J. L. Mo, D. W. Wang, J. Zhao, M. H. Zhu, Z. R. Zhou

Published in: Journal of Materials Engineering and Performance | Issue 6/2018

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Abstract

In this work, the interfacial friction and wear and vibration characteristics are studied by sliding a chromium bearing steel ball (AISI 52100) over both multi-grooved and single-grooved forged steel disks (20CrMnMo) at low and high rotating speeds in order to reveal the effect mechanism of groove-textured surface on tribological behaviors. The results show that the grooves modify the contact state of the ball and the disk at the contact interface. This consequently causes variations in the normal displacement, normal force, and friction force signals. The changes in these three signals become more pronounced with increasing groove width at a low speed. The collision behavior between the ball and the groove increase the amplitude of vibration acceleration at a high speed. The test results suggest that grooves with appropriate widths could trap wear debris on the ball surface while avoiding a strong collision between the disk and the ball, resulting in an improvement in the wear states.

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T.D. Ling, P. Liu, S. Xiong, D. Grzina, J. Cao, Q.J. Wang, Z.C. Xia, and R. Talwar, Surface Texturing of Drill Bits for Adhesion Reduction and Tool Life Enhancement, Tribol. Lett., 2013, 52(1), p 113–122CrossRef

T.S. Kustandi, J.H. Choo, H.Y. Low, and S.K. Sinha, Texturing of UHMWPE Surface Via NIL for Low Friction and Wear Properties, J. Phys. D Appl. Phys., 2009, 43(1), p 015301CrossRef

A. Kovalchenko, O. Ajayi, A. Erdemir, and G. Fenske, Friction and Wear Behavior of Laser Textured Surface Under Lubricated Initial Point Contact, Wear, 2011, 271(9), p 1719–1725CrossRef

B. Kim, Y.H. Chae, and H.S. Choi, Effects of Surface Texturing on the Frictional Behavior of Cast Iron Surfaces, Tribol. Int., 2014, 70, p 128–135CrossRef

P. Chen, X. Xiang, T. Shao, Y. La, and J. Li, Effect of Triangular Texture on the Tribological Performance of Die Steel with TiN Coatings Under Lubricated Sliding Condition, Appl. Surf. Sci., 2016, 389, p 361–368CrossRef

R. Bathe, V.S. Krishna, S.K. Nikumb, and G. Padmanabham, Laser Surface Texturing of Gray Cast Iron for Improving Tribological Behavior, Appl. Phys. A, 2014, 117(1), p 117–123CrossRef

Y. Wan and D.S. Xiong, The Effect of Laser Surface Texturing on Frictional Performance of Face Seal, J. Mater. Process. Technol., 2008, 197(1), p 96–100CrossRef

D. Braun, C. Greiner, J. Schneider, and P. Gumbsch, Efficiency of Laser Surface Texturing in the Reduction of Friction Under Mixed Lubrication, Tribol. Int., 2014, 77, p 142–147CrossRef

B. Raeymaekers, I. Etsion, and F.E. Talke, Enhancing Tribological Performance of the Magnetic Tape/Guide Interface by Laser Surface Texturing, Tribol. Lett., 2007, 27(1), p 89–95CrossRef

10.

H. Yu, X. Wang, and F. Zhou, Geometric Shape Effects of Surface Texture on the Generation of Hydrodynamic Pressure Between Conformal Contacting Surfaces, Tribol. Lett., 2010, 37(2), p 123–130CrossRef

11.

G. Ryk and I. Etsion, Testing Piston Rings with Partial Laser Surface Texturing for Friction Reduction, Wear, 2006, 261(7), p 792–796CrossRef

12.

C. Chouquet, J. Gavillet, C. Ducros, and F. Sanchette, Effect of DLC Surface Texturing on Friction and Wear During Lubricated Sliding, Mater. Chem. Phys., 2010, 123(2), p 367–371CrossRef

13.

Q. Ding, L. Wang, Y. Wang, S.C. Wang, L. Hu, and Q. Xue, Improved Tribological Behavior of DLC Films Under Water Lubrication by Surface Texturing, Tribol. Lett., 2011, 41(2), p 439–449CrossRef

14.

E. Gualtieri, A. Borghi, L. Calabri, N. Pugno, and S. Valeri, Increasing Nanohardness and Reducing Friction of Nitride Steel by Laser Surface Texturing, Tribol. Int., 2009, 42(5), p 699–705CrossRef

15.

L. Hammerström and S. Jacobson, Surface Modification of Brake Discs to Reduce Squeal Problems, Wear, 2006, 261(1), p 53–57CrossRef

16.

J.L. Mo, Z.G. Wang, G.X. Chen, T.M. Shao, M.H. Zhu, and Z.R. Zhou, The Effect of Groove-Textured Surface on Friction and Wear and Friction-Induced Vibration and Noise, Wear, 2013, 301(1), p 671–681CrossRef

17.

K. Kosaka, Y. Nishizawa, Y. Kurita, Y. Oura, Influence of Pad Surface Texture on Disc Brake Squeal. SAE Technical Paper (2011)

18.

L.Z. Su, S. Deoras, A. Takeo, and F.E. Talke, Investigation of Tribological and Read-Write Performance of Textured Sliders, IEEE Trans. Magn., 2005, 41(10), p 3025–3027CrossRef

19.

A.H. Tan and S.W. Cheng, A Novel Textured Design for Hard Disk Tribology Improvement, Tribol. Int., 2006, 39(6), p 506–511CrossRef

20.

T. Sugihara and T. Enomoto, Development of a Cutting Tool with a Nano/Micro-textured Surface—Improvement of Anti-adhesive Effect by Considering the Texture Patterns, Precis. Eng., 2009, 33(4), p 425–429CrossRef

21.

N. Kawasegi, H. Sugimori, H. Morimoto, N. Morita, and I. Hori, Development of Cutting Tools with Microscale and Nanoscale Textures to Improve Frictional Behavior, Precis. Eng., 2009, 33(3), p 248–254CrossRef

22.

Z. Wu, J. Deng, Y. Xing, H. Cheng, and J. Zhao, Effect of Surface Texturing on Friction Properties of WC/Co Cemented Carbide, Mater. Des., 2012, 41, p 142–149CrossRef

23.

U. Pettersson and S. Jacobson, Influence of Surface Texture on Boundary Lubricated Sliding Contacts, Tribol. Int., 2003, 36(11), p 857–864CrossRef

24.

S. Yuan, W. Huang, and X. Wang, Orientation Effects of Micro-grooves on Sliding Surfaces, Tribol. Int., 2011, 44(9), p 1047–1054CrossRef

25.

H.L. Costa and I.M. Hutchings, Hydrodynamic Lubrication of Textured Steel Surfaces Under Reciprocating Sliding Conditions, Tribol. Int., 2007, 40(8), p 1227–1238CrossRef

26.

I. Etsion, State of the Art in Laser Surface Texturing, J. Tribol., 2005, 127(1), p 248–253CrossRef

27.

M. Mosleh and B.A. Khemet, A Surface Texturing Approach for Cleaner Disc Brakes, Tribol. Trans., 2006, 49(2), p 279–283CrossRef

28.

D.W. Wang, J.L. Mo, X.H. Ge, H. Ouyang, and Z.R. Zhou, Disc Surface Modifications for Enhanced Performance Against Friction Noise, Appl. Surf. Sci., 2016, 382, p 101–110CrossRef

29.

Y. Xing, J. Deng, X. Feng, and S. Yu, Effect of Laser Surface Texturing on Si₃N₄/TiC Ceramic Sliding Against Steel Under Dry Friction, Mater. Des., 2013, 52, p 234–245CrossRef

30.

Z. Wang, Q. Zhao, C. Wang, and Y. Zhang, Modulation of Dry Tribological Property of Stainless Steel by Femtosecond Laser Surface Texturing, Appl. Phys. A, 2015, 119(3), p 1155–1163CrossRef

31.

Y. Fang, Y. Zhang, H. Fan, T. Hu, J. Song, and L. Hu, Surface Composition-Lubrication Design of Al₂O₃/Mo Laminated Composites—Part I: Influence of Laser Surface Texturing on the Tribological Behavior at 25 and 800 °C, Wear, 2015, 334, p 23–34CrossRef

32.

S.S. Kim and H.G. Lee, Tribological Behaviors of Carbon Composite Grooved Surfaces, Compos. Struct., 2005, 71(2), p 238–245CrossRef

33.

J. Kümmel, D. Braun, J. Gibmeier, J. Schneider, C. Greiner, V. Schulze, and A. Wanner, Study on Micro Texturing of Uncoated Cemented Carbide Cutting Tools for Wear Improvement and Built-Up Edge Stabilization, J. Mater. Process. Technol., 2015, 215, p 62–70CrossRef

Title: Study on the Correlation Between Dynamical Behavior and Friction/Wear Mechanism Under the Effect of Grooves
Authors: Z. Y. Zhu
J. L. Mo
D. W. Wang
J. Zhao
M. H. Zhu
Z. R. Zhou
Publication date: 26-04-2018
Publisher: Springer US
Published in: Journal of Materials Engineering and Performance / Issue 6/2018
Print ISSN: 1059-9495
Electronic ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3373-z

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