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Effect of Tempering on the Mechanical Properties of Martensitic Stainless Steels Fabricated by Centrifugal Casting  

Bae, Eun-Jae (Hyundai Steel Co)
Baek, Eung-Ryul (Yeungnam University)
Ahn, Jong-Heon (Yeungnam University)
Publication Information
Journal of Korea Foundry Society / v.28, no.3, 2008 , pp. 113-118 More about this Journal
Abstract
A new approach of producing martensitic structure for guide-roll materials was developed using centrifugal casting instead of classic overlay welding process. Centrifugal casting offered a simpler process, fewer defects and even microstructures. Especially in terms of thermal fatigue cracking which usually occurs in the HAZ of welding beads of used continuous caster guide roll materials made by overlay welding process. A typical tensile strength of 1,600 MPa was obtained by this process and was higher than typical tensile strength($800{\sim}1,200\;MPa$) with overlay welding technique. Tempering at $400{\sim}550^{\circ}C$ for 2 hrs was observed to have significant precipitate hardening effect which increases strength and elongation. Nitrogen content from the Cr-N input in the casting process was found to have positive contribution to decrease the volume fraction of ${\delta}$-ferrite which directly corresponds to increasing strength of the roll materials.
Keywords
Continuous casting roll; Roll hardfacing; Centrifugal casting; Martensitic stainless steel; Tempering;
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  • Reference
1 C. G. Kim, J. H. Yoon and D. S. Whang: Int. J. of KCORE, "Effects of Nb, V on the Mechanical Properties of Continuous Casting Rolls Overlaidhang", 18(2), (2004)70-76
2 E.R.Baek, S.Ahn, K.H.Kim, T.S.Yoon, and B.R.Ma: RIST Research Reportn No.94A216, "Development of the Hardfacing Technology to Prolong Continuous Caster Steel Mill Roll Life", (1995) 53-84
3 R. Demuzere: SoudoMetal's Technical Report No.930067, "Submerged arc and electroslag strip cladding", (1993) 1-78
4 C. F. Jactczak, J. A. Larson, S. W. Shin: Society of Automotive Engineerings, Inc., "Retained austenite and its measurements by X-ray diffraction", (1980)
5 K. J. Irvine, D. J. Crowe and F. B. Pickering: J. Iron and steel Inst.(1964) 63
6 H. S. Link and P. W. Marshall: Trans. Am. Soc. Met., 44 (1952) 549
7 B. S. Lement et al: Trans A. S. M., 46 (1954) 851
8 L. J. Klinger et al: Trans A. I. M. E., 46 (1954) 1557
9 J. M. Capus: Iron and Steel Inst. Spec. Rep., 76 (1962) 51
10 T. Gladman et al: Iron and Steel Institute, (1971) 68
11 M. A. Grossman: Trans A. S. M., 167 (1946) 39
12 W. T. DeLong: Weld, "Ferrite in austenitic stainless steel weld metal", 53(7), (1974) 273s-286s
13 F. B. Pickering: Physical Metallurgy and the Design of Steels, Applied Science Publishers LTD, (1978) 130, 173
14 E. Nes and P.Fartum, Scandinavian J. of Metallutgy, 12 (1983). 107
15 John L. Walter, Melvin R. Jackson and Chester T. Sims: Alloying, ASM, Metals Park, Ohio., (1988) 214
16 B. H. Jeong and Y. S. Ahn: J. Kor. Inst. Met. & Mater., 30 (1998) 1763
17 V. G. Gavriljuk and H. Berns: Springer-Verlag, Berlin, "High Nitrigen Steels", (1999)
18 Bruce D. Horn: Iron and steel Engineer, "Continuous caster rolls: Design, Function and performance", 6 (1996) 49-51
19 ASM International, "Stainless Steel", Metal Handbook, 10th ed., 1 (1990) 841
20 Y. Murai, S. Natsume, and S. Nishiyama: "Development of Welding Materials for Continuous Casting Rolls", Kobe Technical Report, 40(3), (1990) 101
21 W. S. Owen: Trans A. S. M., 46 (1954) 812
22 J. Beddoes and J. G. Parr: ASM International, U.S.A., "Introduction to Stainless Steels", (1999) 239
23 D. J. Kotecki and T. A. Siewert: Weld, "WRC-1992 constitution diagram for stainless steel weld metals: a modification of the WRC-1988 Diagram", 71(5), (1992) 171s-178s
24 F. B. Pickering: Int. Met. Rev., Dec., (1979) 1
25 IIW Commission XII: Welding in the World, "Recommandations for submerged arc stainless steel strip cladding", 11(7/8), (1973) 199-207
26 Lincoln Electric Co.,: Hardfacing C7.720, "Rebulding caster rolls-hardfacing with submerged arc welding", 6 (1994) 1-6