Artículos de revistas
Thermal History In Uns S32205 Duplex Stainless Steel Friction Stir Welds
Registro en:
Science And Technology Of Welding And Joining. , v. 19, n. 2, p. 150 - 156, 2014.
13621718
10.1179/1362171813Y.0000000174
2-s2.0-84892754522
Autor
Santos T.F.A.
Idagawa H.S.
Ramirez A.J.
Institución
Resumen
Consolidated UNS S32205 duplex stainless steel joints welds were performed using a friction stir welding (FSW) process. An experimental set-up was used to record the thermal history of duplex stainless steel FSW joint. For points at equal distance from the weld centreline, temperature measured near the beginning of the weld was lower than that measured in the middle of the welded joint. This was attributed to a non-stationary transfer condition. FSW thermal cycle showed shorter time spent at elevated temperature compared that presented by fusion welding, indicating less propensity to detrimental second phase precipitation. To support temperature measurements with thermocouples, a three-dimensional finite element thermal model of FSW was implemented, which provided a good agreement with experimental data. © 2014 Institute of Materials, Minerals and Mining. 19 2 150 156 Sato, Y.S., Kokawa, H., Preferential precipitation site of sigma phase in duplex stainless steel weld metal (1999) Scr. Mater., 40, pp. 659-663 Reis, G.S., Jorge, A.M., Balancin, O.J., Influence of the microstructure of duplex stainless steels on their failure characteristics during hot deformation (2000) Mater. Res., 3, pp. 31-35 Voronenko, B.I., Austenitic-ferritic stainless steels: A state-of-theart review (1997) Met. Sci. Heat Treat., 39, pp. 428-437 Lopez, N., Cid, M., Puiggali, M., Influence of s-phase on mechanical properties and corrosion resistance of duplex stainless steels (1999) Corros. Sci., 41, pp. 1615-1631 Garzon, C.M., Ramirez, A.J., Growth kinetics of secondary austenite in the welding microstructure of a UNS S32304 duplex stainless steel (2006) Acta Mater., 54, pp. 3321-3331 Sato, Y.S., Nelson, T.W., Sterling, C.J., Steel, R.J., Pettersoon, C.-O., Microstructure and mechanical properties of friction stir welded SAF 2507 super duplex stainless steel (2005) Mater. Sci. Eng. A, A397, pp. 376-384 Bhadeshia, H.K.D.H., DebRoy, T., Critical assessment: Friction stir welding of steels (2009) Sci. Technol. Weld. Join., 14, pp. 193-196 Steel, R.J., Sterling, C.J., Friction stir welding of 2205 duplex stainless and 3Cr12 steels (2004) Proc. 14th Int. Conf. on 'Offshore and polar engineering', pp. 67-73. , Toulon, France, May International Society of Offshore and Polar Engineers Saeid, T., Abdollah-Zadeh, A., Assadi, H., Malek Ghaini, F., Effect of friction stir welding speed on the microstructure and mechanical properties of a duplex stainless steel (2008) Mater. Sci. Eng. A, A496, pp. 262-268 Payares-Asprino, M.C., Evans, R.W., Liu, S., Prediction of percentage of ferrite as a function of heat input in gas metal arc welding of duplex stainless steel SAF 2205 weldments (2008) Soldag. Insp., 13, pp. 150-159 Escriba, D.M., Materna-Morris, E., Plaut, R.L., Padilha, A.F., Chi-phase precipitation in a duplex stainless steel (2009) Mater. Charact., 60, pp. 1214-1219 Thomas, W.M., Nicholas, E.D., Needham, J.C., Murch, M.G., Templesmith, P., Daves, C.J., (1991) Friction stir butt welding, , International Patent Application PCT/GB92/02203 Mishra, R.S., Mahoney, M.W., (2007) Friction stir welding and processing, , (eds.), Materials Park, OH, ASM International Santos, T.F.A., Hermenegildo, T.C.F., Afonso, C.R.M., Marinho, R.R., Paes, M.T.P., Ramirez, A.J., Fracture toughness of ISO 3183 X80M (API 5L X80) steel friction stir welds (2010) Eng. Fract. Mech., 77, pp. 2937-2945 Mishra, R.S., Ma, Z.Y., Friction stir welding and processing (2005) Mater. Sci. Eng. R, R50, pp. 1-78 Lambrakos, S.G., Fonda, R.W., Milewski, J.O., Mitchell, J.E., Analysis of friction stir welds using thermocouple measurements (2003) Sci. Technol. Weld. Join., 8, pp. 385-390 Edwards, P., Ramulu, M., Peak temperatures during friction stir welding of Ti-6Al-4V (2010) Sci. Technol. Weld. Join., 15, pp. 468-504 Steel, R.J., Pettersson, C.-O., Packer, S.M., Sorensen, C.D., Sato, Y.S., Nelson, T.W., Sterling, C.J., Friction stir welding of SAF 2507 (UNS S32750) super duplex stainless steel (2004) Stainless Steel World, 16, pp. 27-31 Santos, T.F.A., Marinho, R.R., Paes, M.T.P., Ramirez, A.J., Microstructure evaluation of UNS S32205 duplex stainless steel friction stir welds (2013) Rev. Esc. Minas, 66, pp. 187-191 Sorensen, C.D., Nelson, T.W., Friction stir welding of ferrous and nickel alloys (2007) Friction stir welding and processing, , (ed. R. S. Mishra and M. W. Mahoney) Materials Park, OH, ASM International Zhang, Y.N., Cao, X., Larose, S., Wanjara, P., Review of tools for friction stir welding and processing (2012) Sci. Technol. Weld. Join., 51, pp. 250-261 Manvatkar, V.D., Aurora, A., De, A., DebRoy, T., Neural network models of peak temperature, torque, traverse force, bending stress and maximum shear stress during friction stir welding (2012) Sci. Technol. Weld. Join., 17, pp. 460-466 (2013) Pencial probe eroding thermocouple, , http://www.nanmac.com/handbook/e11.htm, Nanmac Corporation, (accessed 23 June) Wei, L.Y., Nelson, T.W., Correlation of microstructures and process variables in FSW HSLA-65 steel (2011) Weld. J., 90, pp. 95s-101s Matweb, (2013) Material property data, , http://www.matweb.com, (accessed 22 June) Nandan, R., DebRoy, T., Bhadeshia, H.K.D.H., Recent advances in friction-stir welding-process, weldment structure and properties (2008) Prog. Mater. Sci., 53, pp. 980-1023 Zhao, Y., Wu, A.P., Ren, J.L., Sato, Y.S., Kokawa, H., Miyake, M., Yan, D.Y., Temperature and force response characteristics of friction stir welding on Invar 36 alloy (2013) Sci. Technol. Weld. Join., 18, pp. 232-238 Khandkar, M.Z.H., Khan, J.A., Reynolds, A.P., Prediction of temperature distribution and thermal history during friction stir welding: Input torque based model (2003) Sci. Technol. Weld. Join., 8, pp. 165-174 Schmidt, H., Hattel, J., Modelling heat flow around tool probe in friction stir welding (2005) Sci. Technol. Weld. Join., 10, pp. 176-186 Colegrove, P., Painter, M., Graham, D., Miller, T., 3 dimensional flow and thermal modeling of the friction stir welding process (2000) Proc. 2nd Int. Symp. on 'Friction stir welding, pp. 1-11. , Gothenburg, Sweden, June The Welding Institute, Paper 2 Schmidt, H.B., Hattel, J., Thermal modelling of friction stir welding (2008) Scr. Mater., 58, pp. 332-337 Nandan, R., Roy, G.G., Lienert, T.J., Debroy, T., Threedimensional heat and material flow during friction stir welding of mild steel (2007) Acta Mater., 55, pp. 883-895 Arora, A., DebRoy, T., Bhadeshia, H.K.D.H., Back-of-theenvelope calculations in friction stir welding-velocities, peak temperature, torque, and hardness (2011) Acta Mater., 59, pp. 2020-2028 Ramirez, A.J., Brandi, S.D., Application of discrete distribution point heat source model to simulate multipass weld thermal cycles in medium thick plates (2004) Sci. Technol. Weld. Join., 9, pp. 72-82 Wang, H., Colegrove, P.A., dos Santos, J., Hybrid modelling of 7449-T7 aluminum alloy friction stir welded joints (2013) Sci. Technol. Weld. Join., 18, pp. 147-153