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Tribology Transactions Volume 60, 2017 - Issue 3
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Articles

Enhanced Sliding Wear Resistance of Technical Alloys by Hard Particle Reinforcement Using Machine Hammer Peening

Manel Rodríguez RipollAC2T research GmbH, Wiener Neustadt, AustriaCorrespondence[email protected]
,
Franz HeindlAC2T research GmbH, Wiener Neustadt, Austria
,
Christoph LechnerInstitute for Production Engineering and Laser Technology, Technical University of Vienna, Vienna, Austria
,
Vladimir TotolinAC2T research GmbH, Wiener Neustadt, Austria
,
Martin JechAC2T research GmbH, Wiener Neustadt, Austria
&
Friedrich BleicherInstitute for Production Engineering and Laser Technology, Technical University of Vienna, Vienna, Austria
Pages 479-789 | Received 25 Nov 2015, Accepted 12 Apr 2016, Published online: 06 Sep 2016

References

  • Löcker, C. (2007), “Klopfvorrichtung und -Verfahren,” Patent No. DE102006033004A1.
  • Wied, J. (2011), Oberflächenbehandlung von Umformwerkzeugen Durch Festklopfen (Surface treatment of forming tools via machine hammer peening), Doctoral Thesis, TU Darmstadt: Darmstadt, Germany.
  • Bleicher, F., Lechner, C., Habersohn, C., Kozeschnik, E., Adjassoho, B., and Kaminski, H. (2012), “Mechanism of Surface Modification Using Machine Hammer Peening Technology,” CIRP Annals - Manufacturing Technology, 61(1), pp 375–378.
  • Lechner, C. (2014), Oberflächenmodifikation unter Einsatz der Technologie des Schlagverdichtens (Surface modification using the machine hammer peening technology), Doctoral Thesis, TU Wien: Vienna, Austria.
  • Majzoobi, G. H. and Kazemi, M. A. (2013), “A New Investigation on the Effect of Re-Shot Peening on Fretting Fatigue Behavior of Al7075-T6,” Tribology Transactions, 56, pp 943–952.
  • Groche, P., Engels, M., Steitz, M., Müller, C., Scheil, J., and Heilmaier, M. (2012), “Potential of Mechanical Surface Treatment for Mould and Die Production,” International Journal of Materials Research, 103(6), pp 783–789.
  • Groche, P., Steitz, M., Müller, C., and Scheil, J. (2012), “Einglättung Durch Festwalzen und Festklopfen” [Smoothing of surface by deep rolling and hammer peening], Werkstatttechnik (online), 102(10).
  • Gössinger, S. (2014), Erweiterung Anwendungsmöglichkeiten von Maschinellem Oberflächenhämmern im Kontext Hydraulischer Strömungsmaschinen (Widening the application possibilities of machine hammer peening in context of hydraulic compressors), Doctoral Thesis, TU Wien: Vienna, Austria.
  • Steitz, M., Stein, P., and Groche, P. (2015), “Influence of Hammer-Peened Surface Textures on Friction Behavior,” Tribology Letters, 58, pp 1–8.
  • Sun, Y. (2013), “Sliding Wear Behaviour of Surface Mechanical Attrition Treated AISI 304 Stainless Steel,” Tribology International, 57, pp 67–75.
  • Ba, D. M., Ma, S. N., Meng, F. J., and Li, C. Q. (2007), “Friction and Wear Behaviours of Nanocrystalline Surface Layer of Chrome–Silicon Alloy Steel,” Surface and Coatings Technology, 202, pp 254–260.
  • Prakash, N. A., Gnanamoorthy, R., and Kamaraj, M. (2010), “Friction and Wear Behaviour of Surface Nanocrystallized Aluminium Alloy under Dry Sliding Condition,” Materials Science and Engineering B, 168, pp 176–181.
  • Wang, Z. B., Tao, N. R., Li, S., Wang, W., Liu, G., Lu, G., and Lu, K. (2003), “Effect of Surface Nanocrystallization on Friction and Wear Properties in Low Carbon Steel,” Materials Science and Engineering B, 352, pp 144–149.
  • Zhang, Y. S., Han, Z., Wang, K., and Lu, K. (2006), “Friction and Wear Behaviours of Nanocrystalline Surface Layer of Pure Copper,” Wear, 260, pp 942–948.
  • Li, G., Chen, J., and Guan, D. (2010), “Friction and Wear Behaviors of Nanocrystalline Surface Layer of Medium Carbon Steel,” Tribology International, 43, pp 2216–2221.
  • Yan, W., Fang, L., Zheng, Z., Sun, K., and Xu, Y. (2009), “Effect of Surface Nanocrystallization on Abrasive Wear Properties in Hadfield Steel,” Tribology International, 42, pp 634–641.
  • Fridici, V., Fouvry, S., and Kapsa, P. H. (2001), “Effect of Shot Peening on the Fretting Wear of Ti-6Al-4V,” Wear, 250, pp 642–649.
  • Mordyuk, B. N. and Prokopenko, G. I. (2007), “Ultrasonic Impact Peening for the Surface Properties' Management,” Journal of Sound and Vibration, 308, pp 855–866.
  • Mordyuk, B. N. and Prokopenko, G. I. (2015), “Ultrasonic Impact Treatment—An Effective Method for Nanostructuring the Surface Layers of Metallic Materials,” Handbook of Mechanical Nanostructuring, M. Aliofkhazraei (Ed.), pp 417–434, Wiley-VCH: Verlag, Germany.
  • Malaki, M. and Ding, H. (2015), “A Review of Ultrasonic Peening Treatment,” Materials & Design, 87, pp 1072–1086.
  • Wei, S. Z., Liu, Y., Zhang, G. S., Xu, L. J., Li, J. W., and Ren, Y. Y. (2015), “Microstructure and Wear Resistance of Fe-Cr-C Hardfacing Alloy Reinforced by Titanium Carbonitride,” Tribology Transactions, 58, pp 745–749.
  • Heidary, D. S. B., Madadi, F., and Shamanian, M. (2015), “Study of the Microstructures and Abrasive Characteristics of Mo-Fe-C Hardfacing Alloys Fabricated by Gas Tungsten Arc Welding,” Tribology Transactions, 58, pp 225–230.
  • Bhattacharjee, D., Muthusamy, K., and Ramanujam, S. (2014), “Effect of Load and Composition on Friction and Dry Sliding Wear Behavior of Tungsten Carbide Particle-Reinforced Iron Composites,” Tribology Transactions, 57, pp 292–299.
  • Mordyuk, B. N., Iefimov, M. O., Grinkevych, K. E., Sameljuk, A. V., and Danylenko, M. I. (2011), “Structure and Wear of Al Surface Layers Reinforced with AlCuFe Particles Using Ultrasonic Impact Peening: Effect of Different Particle Sizes,” Surface and Coatings Technology, 205, pp 5278–5284.
  • Mordyuk, B. N., Prokopenko, G. I., Milman, Yu. V., Iefimov, M. O., Grinkevych, K. E., Sameljuk, A. V., and Tkachenko, I. V. (2014), “Wear Assessment of Composite Surface Layers in Al–6Mg Alloy Reinforced with AlCuFe Quasicrystalline Particles: Effects of Particle Size, Microstructure and Hardness,” Wear, 319, pp 84–95.
  • Bleicher, F., Lechner, C., Habersohn, C., Obermair, M., Heindl, F., and Rodríguez Ripoll, M. (2013), “Improving the Tribological Characteristics of Tool and Mould Surfaces by Machine Hammer Peening,” CIRP Annals - Manufacturing Technology, 62(1), pp 239–242.
  • Rodríguez Ripoll, M., Heindl, F., Lechner, C., Habersohn, C., Jech, M., and Bleicher, F. (2014), “Improving the Wear Resistance of Functional Surfaces Using the Machine Hammer Peening,” Tribology, 8(1), pp 21–26.
  • Lo, K. H., Cheng, F. T., Kwok, C. T., and Man, H. C. (2003), “Improvement of Cavitation Erosion Resistance of AISI 316 Stainless Steel by Laser Surface Alloying Using Fine WC Powder,” Surface and Coatings Technology, 165, pp 258–267.
  • Totolin, V., Rodríguez Ripoll, M., Jech, M., and Podgornik, B. (2015), “Enhanced Tribological Performance of Tungsten Carbide Functionalized Surfaces via in-situ Formation of Low-Friction Tribofilms,” Tribology International, 94, pp 269–278.

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