Paper Titles

Influence of Composition and Processing on Properties of Stainless Steels
p.117

Energy Conservation Potential in Stainless Steel Making by use of Molten Pig Iron and Liquid Ferro-Chrome
p.124

Stainless Steel Processing to Meet Advanced Applications
p.135

Calandria - A Manufacturing Challenge
p.159

Manufacturing and Critical Applications of Stainless Steel – An Overview
p.163

Comparison of Hot Extrusion and Hot Piercing Processes for Manufacturing Stainless Steel Hot Finished Pipes/Tubes
p.174

Technological Challenges in Manufacturing of over Dimensional Stainless Steel Components of PFBR
p.186

Experiences in Manufacturing and Qualifying of Stainless Steel AISI 403 Grade Materials for PHWR Reactors of NPCIL
p.194

Improvement in Properties of 301LN Austenitic Stainless Steel for Metro Coach Manufacture
p.201

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 794Manufacturing and Critical Applications of...

Manufacturing and Critical Applications of Stainless Steel – An Overview

Article Preview

Abstract:

This paper presents an overview of development of stainless steel for critical applications and its metallurgical aspects in general. Novel emerging methods of processing of stainless steel are also discussed. Advances in steel making aspects with respect to stainless steel and other specialty steels especially in nuclear applications are presented. Overview of alloy design, physical metallurgical aspects of steel for critical applications is discussed. Advances in manufacturing of stainless steel, strengthening mechanisms, corrosion resistance, challenges in stainless steel applications have also been elaborated.

You might also be interested in these eBooks

A Century of Stainless Steels

Info:

Periodical:

Advanced Materials Research (Volume 794)

Pages:

163-173

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.794.163

Citation:

Cite this paper

Online since:

September 2013

Authors:

Mahadevan Venkatraman, K. Pavitra, Vijaya Jana, Tohfiq Kachwala

Keywords:

Argon Oxygen Decarburization, Hydrogen Embrittlement, Nuclear Applications, Sigma (σ) Phase Embrittlement, Stainless Steel (SS), Steel for Critical Applications, Strengthening Mechanisms

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

[1] R.A. Lula, Stainless Steel, American Society for Metals, (1986).

[2] J. Beddoes, J.G. Parr, Introduction to Stainless Steels, 3rd edition, ASM International, Materials Park, OH, USA, (1999).

[3] D. Peckner, I.M. Bernstein (Eds. ), Handbook of Stainless Steels, McGraw-Hill Inc., (1977).

[4] D.T. Llewellyn& R.C. Hudd, Steels: Metallurgy and Applications.

[5] Roger A Covert, Arthur H Tuthill, Dairy, Food and environmental sanitation, Vol 20, No. 7, Page 506-517.

[6] Schaeffler, A.L. , Metal Progress 56(11): 680 – 680B, (1949).

[7] R.J. Fruehan, Iron Making and Steel Making 3, p.153, (1976).

[8] J. Reichel and J. Szekeley, Iron and Steel Maker, 22. 5, p.41, (1995).

[9] J. Steens, E. Frity and L. Goula, Iron and Steel Review, 40, 10, (1997).

[10] L.P. Karjalainen, T. Taulavuori, M. Sellman, A. Kyröläinen, DOI: 10. 2374/SRI08SP040-79-2008-404; (2008).

[11] T. Sakai, J.J. Jonas, Acta Metallurgica 32, 189, (1984).

[12] H.J. McQueen, J.J. Jonas, Treatise in Materials Science and Technology 6, 353, (1975).

[13] T.S. Byun: Acta Materialia, 51, 3063, (2003).

[14] V. Gerold, H.P. Karnthaler, Acta Metallurgica, 37, 2177, (1989).

[15] G. Saller, K. Spiradek-Hahn, C. Scheu, H. Clemens: Materials Science and Engineering A, 427, 246, (2006).

DOI: 10.1016/j.msea.2006.04.020

[16] J. Talonen, H. Hänninen: Acta Materialia, 55, 6108, (2007).

[17] P. Hedström, U. Lienert, J. Almer, M. Odén: Scripta Materialia 56, 213, (2007).

DOI: 10.1016/j.scriptamat.2006.10.009

[18] E. Ratte: Sense and sensitivity of thermo-mechanical forming simulation of metastable austenitic stainless steels, Proc. of the 6th European Stainless Steel Conference - Science and Market, June 10-13, (2008).

[19] A. Belyakov, W. Gao, H. Miura, T. Sakai, Metallurgical and Materials Transactions A 29, 2957, (1998).

[20] Y. Iwahashi, Z. Horita, M. Nemoto, T.G. Langdon, Acta Materialia 45, 4733, (1997).

[21] A. Belyakov, T. Sakai, H. Miura, K. Tsuzaki, Philosophical Magazine A 81, 2629 (2001).

[22] K.H. Lo, C.H. Shek, J.K.L. Lai, Materials Science and Engineering R 65, 39–104, (2009).

[23] Y. Kimura, S.T.S. Suejima, R. Uemori, H. Tamehiro, ISIJ International 39 , 176, (1999).

[24] Baldev Raj , Bull. Mater. Sci., Vol. 32, No. 3, p.271–283, June (2009).

[25] D.H. Lister, Thermal Power plants, Vol II Nuclear reactor materials and Chemistry.

[26] L. Vehovar, M. Tandler, Nuclear Engineering and Design, 206, 21, (2001).

[27] A.A. Tavassoli, Fusion Engineering and Design 29, 371, (1995).

[28] S. Sahin, M. Ubeyli, Journal of Fusion Engineering 27, 271, (2008).

[29] Information on http: /directories. industrialheating. com.

[30] A. M. Babakr, A. Al-Ahmari, K. Al-Jumayiah, F. Habiby, Journal of Minerals & Materials Characterization & Engineering, Vol. 7, No. 2, pp.127-145, (2008).

DOI: 10.4236/jmmce.2008.72011

[31] Darren Michael Bromley, Materials Engineering, The University Of British Columbia, April (2008).

[32] E. Herms, J.M. Olive, and M. Puiggali, Materials Science and Engineering A272, 279-283, (1999).

[33] C. Pan, W.Y. Chu, Z.B. Li, D.T. Liang, Y.J. Su, K.W. Gao, and L.J. Qiao, Materials Science and Engineering A351, 293-298, (2003).

[34] Daniel P. Abraham and Carl J. Altstetter., Metallurgical and Materials Transactions 26A , 2859-2871, (1995).

[35] Wolfgang Losch. , Scripta Metallurgica 13, 661-664, (1979).

[36] V.N. Shivanyuk, J. Foct, V.G. Gavriljuk., Scripta Materialia 49 , 601-606, (2003).

[37] G. Han, J. He, S. Fukuyama, and K. Yokogawa, Acta Materialia 46 13, 4559-4570, (1998).

[38] V.G. Gavriljuk, V.N. Shivanyuk, and J. Foct, Acta Materialia 51, 1293-1305, (2003).

DOI: 10.1016/s1359-6454(02)00524-4

[39] Pekka Nevasmaa, Acta University of Oulu 191 , (2003).

[40] Y. Liang, D.C. Ahn, P. Sofronis, R.H. Dodds Jr., D. Bammann., Mechanics of Materials 40 115-132, (2008).

[41] Information on http: /www. corrosionist. com.

[42] Tsong-Pyng Perng and C.J. Altstetter., Acta Metallurgica 34 9 , 1771- 1781, (1986).

DOI: 10.1016/0001-6160(86)90123-9

[43] Q. Yang, and J.L. Luo., Materials Science and Engineering A288, 75-83, (2000).

[44] Q. Yang, L.J. Qiao, S. Chiovelli, and J.L. Luo, Scripta Materialia 40 11, 1209-1214, (1999).

[45] N. Narita, C.J. Altstetter, and H.K. Birnbaum., Metallurgical Transactions, 13A, 1355-1365, (1982).