Friction Evaluation of Laser Textured Tool Steel Surfaces

1. Aspinwall D.K., Wise M.L.H., Stout K.J. et al. (1996), Electrical discharge texturing, Int. Journal of Machine Tools & Manufacture, 32(1-2), 183-193.Search in Google Scholar

2. Bizi-Bandoki P., Benayoun S., Valette S. et al. (2011), Modifications of roughness and wettability properties of metals induced by femtosecond laser treatment, Applied Surface Science, 257(12), 5213-5218.10.1016/j.apsusc.2010.12.089Search in Google Scholar

3. Braun D., Greiner Ch., Schneider J. et al. (2014), Efficiency of laser surface texturing in the reduction of friction under mixed lubrication, Tribology international, 77, 142-147.10.1016/j.triboint.2014.04.012Search in Google Scholar

4. Cannon A.H., King W.P. (2009), Casting metal microstructures from a flexible and reusable mold, Journal of Micromechanics and Microengineering, 19, 1-6.10.1088/0960-1317/19/9/095016Search in Google Scholar

5. Costa H.L., Hutchings I.M. (2009), Effects of die surface patterning on lubrication in strip drawing, Journal of Materials Processing Technology, 209(3), 1175-1180.10.1016/j.jmatprotec.2008.03.026Search in Google Scholar

6. CZ Ferro-Steel (2011), ČSN 11373 – non-alloy steel for construction purposes (http://www.czferrosteel.cz/pdf/tyce-11373.pdf)Search in Google Scholar

7. Demir A.G., Maressa P., Previtali B. (2013), Fibre laser texturing for surface functionalization, Physics Procedia, 41, 759-768.10.1016/j.phpro.2013.03.145Search in Google Scholar

8. Etsion I. (2005), State of the art in laser surface texturing, Journal of Tribology, 127(1), 248-253.10.1115/1.1828070Search in Google Scholar

9. Etsion I., Kligerman Y., Halperin G. (1999), Analytical and experimental investigation of laser-textured mechanical seal faces, Tribology Transactions, 42(3), 511-516.10.1080/10402009908982248Search in Google Scholar

10. Gualtieri E., Borghi A., Calabri L. et al. (2009), Increasing nano-hardness and reducing friction of nitride steel by laser surface texturing, Tribology International, 42(5), 699-705.10.1016/j.triboint.2008.09.008Search in Google Scholar

11. Huang J., Beckemper S., Gillner A. et al. (2010), Tunable surface texturing by polarization-controlled three-beam interference, Journal of Micromechanics and Microengineering, 20(9), p. 095004.Search in Google Scholar

12. Ibatan T., Uddin M.S. and Chowdbury M.A.K. (2015), Recent development on surface texturing in enhancing tribological performance of bearing sliders, Surface & coatings Technology, 272, 102-120.10.1016/j.surfcoat.2015.04.017Search in Google Scholar

13. Iyengar V.V., Nayak B.K., Gupta M.C. (2011), Ultralow reflectance metal surfaces by ultrafast laser texturing, Applied Optics, 49(31), 5983-5988.10.1364/AO.49.005983Search in Google Scholar

14. Jeng Y-R. (1996), Impact of Plateaued Surfaces on Tribological Performance, Tribology Transactions, 39(2), 354-361.10.1080/10402009608983538Search in Google Scholar

15. Lu X., Khonsari M.M. (2007), An experimental investigation of dimple effect on the Stribeck curve of journal bearings, Tribology Letters, 27(2), 169-176.10.1007/s11249-007-9217-xSearch in Google Scholar

16. Ma Ch., Bai S., Peng X. et al. (2013), Improving hydrophobicity of laser textured SiC surface with micro-square convexes, Applied Surface Science, 266(1), 51-56.10.1016/j.apsusc.2012.11.068Search in Google Scholar

17. Ma Ch., Zhu H. (2011), An optimum design model for textured surface with elliptical-shape dimples under hydrodynamic lubrication, Tribology International, 44(9), 987-995.10.1016/j.triboint.2011.04.005Search in Google Scholar

18. Man H.C., Chiu K.Y., Guo X. (2010), Laser surface micro-drilling and texturing of metals for improvement of adhesion joint strength, Applied Surface Science, 256(10), 3166-3169.10.1016/j.apsusc.2009.11.092Search in Google Scholar

19. Mourier L., Mazuyer D., Lubrecht A.A. et al. (2006), Transient increase of film thickness in micro-textured EHL contacts, Tribology International, 39(12), 1745-1756.10.1016/j.triboint.2006.02.037Search in Google Scholar

20. Ortabasi U., Meier D.L., Easoz J.R. et al. (1997), Excimer micromachining for texturing silicon solar cells, Lasers As Tools For Manufacturing II, SPIE Press, 54-64.10.1117/12.270014Search in Google Scholar

21. Plančak M., Kostka P., Schrek A. (2012), Dictionary of metal forming, Nakladateľstvo STU, Bratislava.Search in Google Scholar

22. Preciz (2012), 1.2842 (90MnCrV8, 19 312 / 19 313),http://www.preciz.cz/sluzby-hlavni/material-normal/1.2842)Search in Google Scholar

23. Qiu M., Minson B., Raeymaekers B. (2013), The effect of texture shape on the friction coefficient and stiffness of gas-lubricated parallel slider bearings, Tribology International, 67, 278-288.10.1016/j.triboint.2013.08.004Search in Google Scholar

24. Rech B., Kluth O., Repmann T. et al. (2002), New materials and deposition techniques for highly efficient silicon thin film solar cells, Solar Energy Materials and Solar Cells, 74(1-4), 439-447.10.1016/S0927-0248(02)00114-9Search in Google Scholar

25. Ronen A., Etsion I., Kligerman Y. (2001), Friction-reducing surface-texturing in reciprocating automotive components, Tribology Transactions, 44(3), 359-366.10.1080/10402000108982468Search in Google Scholar

26. Samad-Zadeh A., Harsono M., Belikov A. et al. (2011), The influence of laser-textured dentinal surface on bond strength, Dental Materials, 27(10), 1038-1044.10.1016/j.dental.2011.07.005Search in Google Scholar

27. Scaraggi M. (2012), Textured surface hydrodynamic lubrication: Discussion, Tribology Letters, 48(3), 375-391.10.1007/s11249-012-0025-6Search in Google Scholar

28. Schaeffer R.D. (2012), Fundamentals of laser micromachining, CRC Press. London.Search in Google Scholar

29. Shen C. and Khonsari M.M. (2015), Numerical optimization of texture shape for parallel surfaces under unidirectional and bidirectional sliding, Tribology International, 82, 1-11.10.1016/j.triboint.2014.09.022Search in Google Scholar

30. Stašić J., Gaković B., Perrie W. et al. (2011), Surface texturing of the carbon steel AISI 1045 using femtosecond laser in single pulse and scanning regime, Applied Surface Science, 258(1), 290-296.10.1016/j.apsusc.2011.08.052Search in Google Scholar

31. Tang W., Zhou Y., Zhu H. et al. (2013), The effect of surface texturing on reducing the friction and wear of steel under lubricated sliding contact, Applied surface science, 273, 199-204.10.1016/j.apsusc.2013.02.013Search in Google Scholar

32. Engineering ToolBox (2014), Friction and coefficients of friction, (http://www.engineeringtoolbox.com/friction-coefficients-d_778.html)Search in Google Scholar

33. Varenberg M., Halperin G., Etsion I. (2002), Different aspects of the role of wear debris in fretting wear, Wear, 252(11-12), 902-910.10.1016/S0043-1648(02)00044-3Search in Google Scholar

34. Vilhena L.M., Sedlaček M., Podgornik B. et al. (2009), Surface texturing by pulsed Nd:YAG laser, Tribology International, 42(10), 1496-1504.10.1016/j.triboint.2009.06.003Search in Google Scholar

35. Wahl R., Schneider J., Gumbsch P. (2012), Influence of the real geometry of the protrusions in microtextured surfaces on frictional behaviour, Tribology Letters, 47(3), 447-453.10.1007/s11249-012-9999-3Search in Google Scholar

36. Yan J., Zhang Z., Kuriyagawa T. et al. (2010), Fabricating micro-structured surface by using single-crystalline diamond endmill, Int. Journal of Advanced Manufacturing Technology, 51, 957-964.10.1007/s00170-010-2695-2Search in Google Scholar

37. Zhu X.P., Lei M.K., Ma T.C. (2003), Surface morphology of titanium irradiated by high-intensity pulsed ion beam, Nuclear Instruments & Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 211(1), 69-79.10.1016/S0168-583X(03)01124-8Search in Google Scholar

38. Zum Gahr K.H., Wahl R., Wauthier K. (2009), Experimental study of the effect of microtexturing on oil lubricated ceramic/steel friction pairs, Wear, 267(5-8), 1241-1251.10.1016/j.wear.2008.12.108Search in Google Scholar