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Impact of Austenitizing Temperature on the Strength Behavior and Scratch Resistance of AISI H13 Steel

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Abstract

Hot die steel properties can be worked by controlling its heat treatment, which produces major changes in hot die steel’s microstructure. In the present paper impact of austenitizing temperature on the scratch resistance, strength, and fracture behavior of AISI H13 die steel is analyzed. Samples at different austenitizing temperature 1000\(\,^{\circ }\)C, 1020\(\,^{\circ }\)C, 1040\(\,^{\circ }\)C, 1060\(\,^{\circ }\)C are prepared on which uniaxial tensile tests to fracture, impact toughness, indentation hardness, and scratch tests are done along with microstructure and fracture surface study. It has been observed that the strength of H13 die steel decreases as a result of the increase in grain size due to the rise in austenitizing temperature. However, the hardness increases with an increase in austenitizing temperature. Impact testing for toughness revealed that H13 die steel austenitized at 1000\(\,^{\circ }\)C produces finer grain with high toughness, and impact toughness decreases with increasing the austenitizing temperature. Predominant fracture mode displayed by H13 specimens was transgranular quasicleavage. During the scratch test, normal load, traction force, COF, and slope are recorded using Winducom 2010 software on a computer. Postscratch test surface profilometer and a metallurgical microscope are used to quantify the scratch wear for H13 die steel austenitized at different temperatures. It is found that H13 steel austenitized at 1060\(\,^{\circ }\)C has better scratch resistance compared to the one austenitized at 1000\(\,^{\circ }\)C.

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References

  1. 1.

    V. Abouei, H. Saghafian, S. Kheirandish, J. Iron Steel Res. Int. 14(4), 43 (2007)

  2. 2.

    Y. Wang, T. Lei, J. Liu, Wear 231, 12 (1999)

  3. 3.

    V. Jagota, R.K. Sharma, J. Braz. Soc. Mech. Sci. Eng. 40(219), 1 (2018)

  4. 4.

    J. Jiang, F.H. Stott, M.M. Stack, Tribol. Int. 31(5), 245 (1998)

  5. 5.

    R.J. Wasilewski, Metall. Trans. A 6A, 1405 (1975)

  6. 6.

    H.W. Paxton, J.B. Austin, Metall. Trans. 3, 1035 (1972)

  7. 7.

    E.C. Bain, Trans. Am. Inst. Min. Metall. Eng. 70, 25 (1924)

  8. 8.

    L.Y. Jun, L.Y. Min, H.B. Yun, J. Cent. South Univ. Technol. 13(2), 122 (2006)

  9. 9.

    N. Hansen, Scr. Mater. 51(8), 801 (2004)

  10. 10.

    G.R. Speich, W.C. Leslie, Metall. Trans. 3, 1043 (1972)

  11. 11.

    H. Chandler, Heat Treater’s Guide: Practices and Procedures for Irons and Steels, 2nd edn. (ASM International, 1998)

  12. 12.

    ASM Handbook Volume 4—Heat Treating (ASM International, 1991)

  13. 13.

    B. Podgornik, B. Zuzek, F. Kafexhiu, V. Leskovsek, Tribol. Lett. 65(5), 1 (2016)

  14. 14.

    V. Raghavan, M. Cohen, Metall. Trans. 2(9), 2409 (1971)

  15. 15.

    Y. Guanghua, H. Xinmin, W. Yanqing, Q. Xingguo, Y. Ming, C. Zuoming, J. Kang, Metal Sci. Heat Treat. 52(7), 393 (2010)

  16. 16.

    R. Zhang, R.D. Sisson, in Proceedings of the 28th ASM Heat Treating Society Conference (ASM International, 2015), pp. 368–372

  17. 17.

    P.L. Larsson, Crystals 9(33), 1 (2019)

  18. 18.

    B. Lawn, E. Fuller, J. Mater. Sci. 10, 2016 (1975)

  19. 19.

    S. Ebnesajjad, Non-melt Processible Fluoropolymers—The Definitive User’s Guide and Data Book (William Andrew imprint of Elsevier, Oxford, 2014)

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Correspondence to Vishal Jagota.

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Jagota, V., Sharma, R.K. Impact of Austenitizing Temperature on the Strength Behavior and Scratch Resistance of AISI H13 Steel. J. Inst. Eng. India Ser. D (2020). https://doi.org/10.1007/s40033-020-00205-6

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Keywords

  • Austenitizing temperature
  • H13 die steel
  • Scratch wear resistance
  • Strength
  • Hardness
  • Toughness