Influencia del material de aporte en la resistencia a corrosión por picadura en uniones soldadas de un acero inoxidable dúplex 2205

  1. C.J. Múnez
  2. M. V. Utrilla
  3. A. Ureña
  4. Enrique Otero Huerta
Journal:
Revista de metalurgia

ISSN: 0034-8570

Year of publication: 2007

Volume: 43

Issue: 4

Pages: 245-251

Type: Article

DOI: 10.3989/REVMETALM.2007.V43.I4.70 DIALNET GOOGLE SCHOLAR lock_openOpen access editor

More publications in: Revista de metalurgia

bar_chart View metrics

Metrics

Cited by

  • Scopus Cited by: 0 (01-12-2023)
  • Dimensions Cited by: 0 (15-04-2023)

JCR (Journal Impact Factor)

  • Year 2007
  • Journal Impact Factor: 0.436
  • Journal Impact Factor without self cites: 0.128
  • Article influence score: 0.063
  • Best Quartile: Q3
  • Area: METALLURGY & METALLURGICAL ENGINEERING Quartile: Q3 Rank in area: 34/66 (Ranking edition: SCIE)

SCImago Journal Rank

  • Year 2007
  • SJR Journal Impact: 0.286
  • Best Quartile: Q2
  • Area: Metals and Alloys Quartile: Q2 Rank in area: 55/183
  • Area: Physical and Theoretical Chemistry Quartile: Q3 Rank in area: 106/156
  • Area: Materials Chemistry Quartile: Q3 Rank in area: 140/272
  • Area: Condensed Matter Physics Quartile: Q3 Rank in area: 267/455

Dimensions

(Data updated as of 15-04-2023)
  • Total citations: 0
  • Recent citations: 0

Abstract

In this work, it has been studied the pitting corrosion resistance of welding duplex stainless steel 2205. Unions were made by GMAW process with different fillers: duplex ER 2209 and two austenitic (ER 316LSi and ER 308LSi). The microstructure obtained with the duplex ER 2209 filler is similar to the duplex 2205 base material, but the unions produced with the austenitic fillers cause a decrease of the phases relation a/g. To evaluate the influence of the filler on the weld, the pitting corrosion resistance was determined by electrochemical critical pitting temperature test (TCP) and the mechanical properties by the hardness. The phases imbalance produced for the dissimilar fillers bring out a variation of the pitting corrosion resistance and the mechanical properties

Bibliographic References

  • [1] K.M Lee, H.S. Cho y D.C Choi, J. Alloy. Compd. 285 (1999) 156-161. doi:10.1016/S0925-8388(99)00014-6
  • [2] Zh.L Jiang, X.y Chen y X. Liu, Mater. Sci. Eng. A 363 (2003) 263-267. doi:10.1016/S0921-5093(03)00647-6
  • [3] A Redjaïmia y G Metauer, J. Mater. Sci. 36 (2001) 1.717-1.725.
  • [4] J.D Kordatos, G Fourlaris y G Papadimitriou, Scr. Mater. 44 (2001) 401-408. doi:10.1016/S1359-6462(00)00613-8
  • [5] G. Coates, Casti Handbook of Stainless Steels & Nickel Alloys, 2nd ed, CASTI Publishing INC., Alberta, 2002, pp. 209.
  • [6] G. Di Caprio, Los Aceros Inoxidables, 2ª ed., Grupinox, Barcelona, España, 1999, pp. 119.
  • [7] J. Charles, Weld. World 36 (1995) 43-54.
  • [8] A. Pardo, E. Otero, M.C. Merino, M.D. López, M.V. Utrilla y F. Moreno, Corrosion 56 (2000) 411-418.
  • [9] A. Pardo, E. Otero, M.C. Merino, M.D. López y M.V. Utrilla, Rev. Metal. Madrid 37 (2001) 499-508.
  • [10] G150-99 (2004) Standard Test Method for Electrochemical Critical Pitting Temperature Testing of Stainless Steels, ASTM International.
  • [11] V.V. Satyanarayana, G. Madhsudham Reddy y T. Mohondas, J Mater. Process. Tech., 160 (2005) 128-130. doi:10.1016/j.jmatprotec.2004.05.017
  • [12] T.H. Chen y J. R. yang, Mater. Sci. Eng. A (2002) 166-181. doi:10.1016/S0921-5093(02)00065-5
  • [13] V. Amigó, V. Bonache, L. Teruel y A. Vicente, Rev Metal Madrid 41 (2005) 90-97.
  • [14] E. Otero, Rev. Metal. Madrid 41 (2005) 148-158.
  • [15] H.-y. Liou, R.-I. Hsieh y W.-T. Tsai, Mater. Chem. Phys. 74 (2002) 33-42. doi:10.1016/S0254-0584(01)00409-6
Data source: Dialnet