Startseite Effect of Different Rolling Schedules on the Mechanical Properties and Microstructure of X60 Type HSLA Steel
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Effect of Different Rolling Schedules on the Mechanical Properties and Microstructure of X60 Type HSLA Steel

  • Adem Bakkaloğlu EMAIL logo
Veröffentlicht/Copyright: 6. Januar 2022
Veröffentlichen auch Sie bei De Gruyter Brill
Informationen für Autor*innen
International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 92 Heft 4

Abstract

The application of microalloying, controlled rolling and controlled cooling has been the most important achievements in the metallurgical industry in the last 30 years. Microstructure and mechanical properties of steels are greatly improved by applying these technologies. This application resulted in significant progress in the production and application of high-strength low-alloy steel. In the present investigation, the effect of different rolling schedules on the microstructure and mechanical properties of grade X60 API steel has been studied. The tensile and impact properties of this steel are related to the microstructure introduced by various rolling schedules. It has been found that it is possible to obtain a steel with 25 % elongation to fracture, 560 MPa yield strength, 650 MPa tensile strength, and an impact transition temperature of -35°C through thermomechanical rolling process.

Keywords: Rolling schedules; Mechanical properties of steel; Microstructure of steel; Steel X60 type HSLA
A. Bakkaloğlu Yıldız Technical University Dept. of Metallurgical and Materials Engineering Main Campus, 80750 Besiktas Istanbul, Turkey Fax:+90212261 8674

Literature

1 Erasmus, L.A., in: G. Tither and Z. Shouhua (eds.), HSLA Steels; Processing, Properties and Applications, TMS, Proc. 2nd Int. Conf. on HSLA Steels, China (1992) 177.Suche in Google Scholar

2 DeArdo A.J.: as Ref. [1], p. 21.Suche in Google Scholar

3 Khalid, F.A.; Forooque, M.; Haq, A.; Khan, A.Q.: Mater. Sci. Technol. 15 (1999) 1209.10.1179/026708399101505121Suche in Google Scholar

4 Militzer, M.; Warren, J.; Sun, W.: Steel Res. 69, No. 7 (1998) 279.10.1002/srin.199805550Suche in Google Scholar

5 Yannacopoulos, S.; Chaturvedi, M.C.: Canad. Metall. Quart. 27 (1988) 163.10.1179/cmq.1988.27.2.163Suche in Google Scholar

6 Niobium Information 7/94, CBMM/NPC, Germany (1994).Suche in Google Scholar

7 Niobium Information 9/95, CBMM/NPC, Germany (1995).Suche in Google Scholar

8 Leslie, C.W.: The Physical Metallurgy of Steels, McGraw Hill, New York (1981) 191.Suche in Google Scholar

9 Cabrera, J.M.; Omar, A.; Prado, J.M.: J. Mater. Sci. 31 (1996) 1303.10.1007/BF00353110Suche in Google Scholar

10 Pereloma, E.V.; Boyd, I.D.: Mater. Sci. Technol. 12 (1996) 1043.10.1080/02670836.1996.11665720Suche in Google Scholar

11 Deardo, A.J.; Pytel, S.M.; Garcia, C.I.: Proc. Int. Conf. on Processing, Microstructure and Properties of Microalloyed and Other Modern High Strength Low Alloy Steels, Iron and Steel Society, Warrendale, PA (1992) 359.Suche in Google Scholar

12 Singh, A.P.; Prasad, A.; Prakash, K.; Sengupta, D.; Murty, G.M.: Mater. Sci. Technol. 15 (1999) 121.10.1179/026708399101505554Suche in Google Scholar

13 Hongtao, Z.; Huawei, G.; Baorong, W., in: I. Tamura (ed.) Proc. Int. Conf. on Physical Metallurgy of Thermomechanical Processing of Steels and Other Metals, Tokyo, The Iron and Steel Inst. of lapan (1988) 170.Suche in Google Scholar

14 Krauss, G.: Principles of Heat Treatment of Steels, Am. Soc. of Metals, Metals Park, OH (1988) 269.Suche in Google Scholar

15 DeArdo, A.J.: Microalloying 95, Proc. Int. Conf. on Microalloying, Pittsburg, PA (1995) 15.Suche in Google Scholar

16 Sinha, A.K.: Physical Metallurgy of Microalloyed High Strength Low Alloy Steels, Proceedings of the Emerging Technologies for New Materials & Product-mix of the Steel Industry, Cincinnati, OH (1991) 195.Suche in Google Scholar

17 Albedyhl, M.; Feldmann, H.; Grotepass, I.; Müller, H.: Metall. Plant Technol. 11 (1998) 46.Suche in Google Scholar

18 European Standard EN 10 113-1 (1993) 65.Suche in Google Scholar

19 Müschenborn, W.; Imlau, K.P.; Meyer, L.; Schriever, U.: as Ref. [15], p. 37.Suche in Google Scholar

20 DIN 50 115 Standard, Kerbschlagbiegeversuch (1996) 111.Suche in Google Scholar

21 Hulka, K.; Hillenbrand, H.G.; Heisterkamp, F.; Niederhoff, K.A.: as Ref. [15], p. 235.Suche in Google Scholar

22 Pickering, F.B.: Microalloying 75, Proc. Int. Conf. on Microalloying, New York, 1 (1975) 3.Suche in Google Scholar

23 Niobium Information 14/97, CBMM/NPC, Düsseldorf (1997).10.1177/0266382974236318Suche in Google Scholar

24 Amin, R.K.; Pickering, F.B.: in: A.J. DeArdo, G.A. Ratz, P.G. Wray (eds.) Thermomechanical Processing of Microalloyed Austenite, Conf. Proc. TMS-AEVIE, Warrendale, PA (1982) 405.Suche in Google Scholar

25 Bakkaloğlu, A.: Int. AMSE Conf. on System Analysis, Control & Design, South Bank University, London (1993) 134.Suche in Google Scholar
Received: 2000-06-08
Published Online: 2022-01-06

© 2001 Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Frontmatter
  2. Aufsätze/Articles
  3. On Properties of Interstitials and Vacancies in Stainless Steels: A Review
  4. Thermodynamic Assessment of the Ru–Si System
  5. The Phase Diagram of the In–Sb–Sn System
  6. The Excess Enthalpies of Liquid Ag-Ge-Te and Ag-Sn-Te Alloys
  7. A Model for the Calculation of the Bainitic Phase Transformation Kinetics from Dilatometric Data
  8. Untersuchung zum Vergleich der σ-Phasenausscheidung in einem rostfreien Superferrit und einem Duplex-Stahl
  9. Effect of Different Rolling Schedules on the Mechanical Properties and Microstructure of X60 Type HSLA Steel
  10. Thermochemical Study of High Temperature Corrosion of Iron in a Diluted HCl + SO2 Environment
  11. Calculation of the Debye Temperature and Study of the Lattice Dynamics of Fe80–xNixCr20 by 57Fe Mössbauer Spectroscopy
  12. Surface Self-Cleaning Effect of Zn-22Al Alloy during Superplastic Deformation
  13. Acoustic Emission and Strain Localization in FCC Single Crystals Compressed in Channel-Die at Low Temperature
  14. Wetting of Alumina, Iron and Stainless Steel Substrates by Molten Magnesium
  15. Split-Induced Lüders Bands in Non-Sag Tungsten Wires during Torsion
  16. The Structure and Crystallization of Amorphous Ni–Fe–P–B Alloys Prepared by Electrons Plating
  17. The Formation of Aluminum Phosphide in Aluminum Melt Treated with an Al–Fe–P Inoculant Addition
  18. Vapor Pressure and Critical Data for Uranium
  19. Mitteilungen/Notifications
  20. Personen
  21. Mitteilungen/News
  22. Bücher/Books
  23. Tagungen/Conferences
https://doi.org/10.3139/ijmr-2001-0069
Schlagwörter für diesen Artikel
Rolling schedules; Mechanical properties of steel; Microstructure of steel; Steel X60 type HSLA

Artikel in diesem Heft

  1. Frontmatter
  2. Aufsätze/Articles
  3. On Properties of Interstitials and Vacancies in Stainless Steels: A Review
  4. Thermodynamic Assessment of the Ru–Si System
  5. The Phase Diagram of the In–Sb–Sn System
  6. The Excess Enthalpies of Liquid Ag-Ge-Te and Ag-Sn-Te Alloys
  7. A Model for the Calculation of the Bainitic Phase Transformation Kinetics from Dilatometric Data
  8. Untersuchung zum Vergleich der σ-Phasenausscheidung in einem rostfreien Superferrit und einem Duplex-Stahl
  9. Effect of Different Rolling Schedules on the Mechanical Properties and Microstructure of X60 Type HSLA Steel
  10. Thermochemical Study of High Temperature Corrosion of Iron in a Diluted HCl + SO2 Environment
  11. Calculation of the Debye Temperature and Study of the Lattice Dynamics of Fe80–xNixCr20 by 57Fe Mössbauer Spectroscopy
  12. Surface Self-Cleaning Effect of Zn-22Al Alloy during Superplastic Deformation
  13. Acoustic Emission and Strain Localization in FCC Single Crystals Compressed in Channel-Die at Low Temperature
  14. Wetting of Alumina, Iron and Stainless Steel Substrates by Molten Magnesium
  15. Split-Induced Lüders Bands in Non-Sag Tungsten Wires during Torsion
  16. The Structure and Crystallization of Amorphous Ni–Fe–P–B Alloys Prepared by Electrons Plating
  17. The Formation of Aluminum Phosphide in Aluminum Melt Treated with an Al–Fe–P Inoculant Addition
  18. Vapor Pressure and Critical Data for Uranium
  19. Mitteilungen/Notifications
  20. Personen
  21. Mitteilungen/News
  22. Bücher/Books
  23. Tagungen/Conferences
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 27.10.2025 von https://www.degruyterbrill.com/document/doi/10.3139/ijmr-2001-0069/html
Button zum nach oben scrollen