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Computer Analysis of the Morphology of Ordered Surface Topography of 15kh13mf Steel After Pulse Laser Treatment

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Materials Science Aims and scope

We identify and perform the quantitative analysis the digital images of ordered surface topography for 15Kh13MF steel after its treatment by powerful laser pulses. We estimate the state of the surface after its irradiation in different media. It is shown that the topography formed on the surface of the modified material has characteristics of a wavy structure. For this structure, we determine certain integral parameters of the image.

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References

  1. V. E. Panin, V. P. Sergeev, and A. V. Panin, Nanostructuring of the Surface Layers of Structural Materials and Application of Nanostructured Coatings [in Russian], Izd. Tomsk. Politekh. Inst., Tomsk (2008).

    Google Scholar 

  2. H. M. Nykyforchyn, V. I. Kyryliv, Dz. V. Slobodjan, and Ju. M. Koval, “Structural steels surface modification by mechanical pulse treatment for corrosion protection and wear resistance,” Surf. Coat. Technol., 100101, No. 1–3, 125–127 (1998).

    Article  Google Scholar 

  3. S. A. Barannikova, A. V. Ponomareva, L. B. Zuev, et al., “Significant correlation between macroscopic and microscopic parameters for the description of localized plastic flow autowaves in deforming alloys,” Solid State Comm., 9, 784–787 (2012).

    Article  Google Scholar 

  4. V. E. Panin, “Wave nature of plastic deformation in solids,” Russ. Phys. J., 33, No. 2, 99–110 (1990).

    Google Scholar 

  5. V. E. Panin, A. V. Panin, D. D. Moiseenko, et al., “The chess-board effect in the stress-strain distribution at interfaces of a loaded solid,” Dokl. Phys., 51, No. 8, 408–411 (2006).

    Article  Google Scholar 

  6. C. S. Montross, T. Wei, L. Ye, et al., “Laser shock processing and its effects on microstructure and properties of metal alloys: A review,” Int. J. Fatigue, 24, No. 10, 1021–1036 (2002).

    Article  Google Scholar 

  7. P. V. Yasniy, P. O. Maruschak, S. V. Panin, and P. S. Lyubutin, “Mesomechanics and hierarchical levels of fatigue crack growth in 25Cr1Mo1V steel,” Int. J. Terraspace Sci. Eng., 3, 169–175 (2011).

    Google Scholar 

  8. N. G. Chausov, P. O. Maruschak, O. Pretkovskis, et al., “Self-organization of the structure of heat resistant steels in dynamic non-equilibrium processes,” in: Abstr. of the 9th Internat. Conf. “Mechatronic Systems and Materials” (July 1–3, 2013), Vilnius, Lithuania (2013), p. 39.

  9. P. Maruschak, V. Gliha, I. Konovalenko, et al., “Physical regularities in the cracking of nanocoatings and a method for the automated determination of the crack-network parameters,” Materiali in Tehnologije, 46, 525–529 (2012).

    Google Scholar 

  10. P. O. Maruschak, V. S. Mocharskyi, I. M. Zakiev, and Yu. M. Nikiforov, “Morphology of periodic structures on the surface of steel 15Kh13MF after the nanosecond laser irradiation accompanied by generation of shock waves,” in: Proc. of the IEEE Internat. Conf. on Oxide Materials for Electronic Engineering [in Ukrainian], (Sept. 3–7), Lviv (2012), pp. 192–193.

  11. I. Konovalenko, P. Maruschak, A. Menou, et al., “A novel algorithm for damage analysis of fatigue sensor by surface deformation topography parameters,” in: Proc. of the Internat. Symp. “Operational Research and Applications” (May 8–10, 2013), Marrakech, Morocco (2013), pp. 678–684.

  12. P. O. Marushchak and I. V. Konovalenko, “Measuring of strains in materials by analyzing digital images of the surface,” Zavod. Lab. Diagnost. Mater., 76, No. 6, 55–61 (2010).

    Google Scholar 

  13. P. O. Maruschak, S. V. Panin, S. R. Ignatovich, et al., “Influence of deformation process in material at multiple cracking and fragmentation of nanocoating,” Theor. Appl. Fract. Mech., 57, 43–48 (2012).

    Article  Google Scholar 

  14. I. V. Konovalenko and P. O. Marushchak, “Error analysis of an algorithm for identifying thermal fatigue cracks,” Optoelectronics, Instrum. Data Process., 47, 360–367 (2011).

    Google Scholar 

  15. Р. V. Yasnii, Р. O. Marushchak, I. V. Konovalenko, and R. T. Bishchak, “Computer analysis of surface cracks in structural elements,” Fiz.-Khim. Mekh. Mater., 44, No. 6, 83–88 (2008); English translation: Mater. Sci., 44, No. 6, 833–839 (2008).

    Article  Google Scholar 

  16. P. Maruschak, I. Zakiev, V. Mocharsky, and Y. Nikiforov, “Experimental study of the surface of steel 15Kh13MF after the nanosecond laser shock processing,” Solid State Phenom., 200, 60–65 (2013).

    Article  Google Scholar 

  17. Р. O. Marushchak, Yu. M. Nikiforov, B. P. Kovalyuk, and V. B. Hlad’o, “Hardening of the surface layer of heat-resistant steels by laser shock wave treatment,” in: Bull. Dal’ East-Ukrainian Nat. Univ., Issue 7 (125) (2008), pp. 197–201.

  18. Р. O. Marushchak, V. B. Glad’o, Yu. N. Nikiforov, et al., “Morphology of the steel surface after shock-wave laser treatment,” in: Abstr. of the Conf. NANSYS-2007 “Nanosize Systems. Structure, Properties, and Technology” (Nov. 21–23, 2007) [in Ukrainian], Kurdyumov Institute of Metallophysics, Kyiv (2007), p. 267.

  19. W. Lu, “Research on residual stress drops on material surface by laser shock processing,” Adv. Mater. Res., 460, 420–423 (2012).

    Article  Google Scholar 

  20. Р. O. Marushchak, A. P. Sorochak, and V. S. Mocharskii, “Fractographic analysis of the surface and mechanisms of fracture of 15Kh13MF steel after shock-wave laser treatment,” Vestnik Mashinostr., No. 4, 50–53 (2013).

    Google Scholar 

  21. I. V. Konovalenko, Р. O. Marushchak, and I. B. Okipnyi, “Computer analysis of the topography of fracture surfaces by the pseudostereoscopic method,” Vestnik Mashinostr., No. 5, 22–24 (2013).

    Google Scholar 

  22. A. Hassani A. and H. Ghasemzadeh Tehrani, “Crack detection and classification in asphalt pavement using image processing,” in: Pavement Cracking: Mechanisms, Modeling, Detection, Testing and Case Histories (2008), pp. 891–896.

  23. Р. O. Marushchak and I. V. Konovalenko, “Measuring of the inhomogeneous fields of displacements of the surfaces of materials and the crack-tip opening displacements by analyzing digital images,” Mashynoznavstvo, No. 12, 18–21 (2008).

    Google Scholar 

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Authors and Affiliations

  1. Pulyui Ternopil’ National Technical University, Ternopil’, Ukraine

    P. O. Marushchak, I. V. Konovalenko, V. S. Mochars’kyi & A. P. Sorochak

  2. Karpenko Physicomechanical Institute, Ukrainian National Academy of Science, Lviv, Ukraine

    B. I. Rabyk

Authors
  1. P. O. Marushchak
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  2. I. V. Konovalenko
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  3. V. S. Mochars’kyi
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  4. A. P. Sorochak
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  5. B. I. Rabyk
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Correspondence to P. O. Marushchak.

Additional information

Translated from Fizyko-Khimichna Mekhanika Materialiv, Vol. 49, No. 6, pp. 79–86, November–December, 2013.

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Marushchak, P.O., Konovalenko, I.V., Mochars’kyi, V.S. et al. Computer Analysis of the Morphology of Ordered Surface Topography of 15kh13mf Steel After Pulse Laser Treatment. Mater Sci 49, 796–804 (2014). https://doi.org/10.1007/s11003-014-9676-9

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  • DOI: https://doi.org/10.1007/s11003-014-9676-9

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