Chapter 9

[15] Majumdar JD, Pinkerton A, Liu Z,

[23] Trdan U, Skarba M, Grum J. SEM/ EDS characterization of laser shock peening effect on localized corrosion of Al alloy in a near natural chloride environment. Corrosion Science. 2014;

[24] Zhang DQ, Li J, Joo HG, Lee KY. Corrosion properties of Nd:YAG laser— GMA hybrid welded AA6061 Al alloy and its microstructure. Corrosion Science. 2009;51:1399-1404

[25] Silver BR, Holub K, Marecek V. Low

microcapillaries exhibiting non-ohmic behavior. Electrochimica Acta. 2013;

[26] JR MACDONALD. Impedance Spectroscopy. 2nd ed. New York: Wiley

[27] He X, Elmer JW, DebRoy T. Heat transfer and fluid flow in laser microwelding. Journal of Applied Physics. 2005;97(8):084909-084909-9

[28] Guan YC, Zhou W, Li ZL, Zheng HY. Influence of overlapping tracks on microstructure evolution and corrosion behavior in laser-melt magnesium alloy. Materials and Design. 2013;52:452-458

frequency pseudo-inductive phenomenon at novel glass

82:328-338

110:801-808

Interscience; 2005

[16] Bertelli F, Meza ES, Goulart PR, Cheung N, Riva R, Garcia A. Laser remelting of Al-1.5 wt.% Fe alloy surfaces: Numerical and experimental

[17] Mondolfo LF. Aluminum Alloys: Structure and Properties. 9th ed. London: Butterworths; 1976

[18] Gremaud M, Carrard M, Kurz W. The microstructure of rapidly solidified Al-Fe alloys subjected to laser surface treatment. Acta Metallurgia et Materialia. 1990;38:2587-2599

[19] Watkins KG, Liu Z, McMahon M, Vilar R, Ferreira MGS. Influence of the overlapped area on the corrosion behaviour of laser treated aluminium

alloys. Materials Science and Engineering A. 1998;252:292-300

[21] Grum J, Sturm R. A new

experimental technique for measuring strain and residual stresses during a laser remelting process. Journal of Materials Processing Technology. 2004;

[22] Kendig MW, Allen AT, Jeanjaquet SL, Mansfeld F. In: Baboian R, editor. Electrochemical Techniques. Houston, Texas, USA: NACE; 1986. pp. 67-71

225-237

147:351-358

190

[20] Cordovilla F, García-Beltrán A, Sancho P, Domínguez J, Ruiz-de-Lara L, Ocaña JL. Numerical/experimental analysis of the laser surface hardening with overlapped tracks to design the configuration of the process for Cr-Mo steels. Materials and Design. 2016;102:

analyses. Optics and Lasers in Engineering. 2011;49:490-497

Manna I, Li L. Microstructure characterization and process optimization of laser assisted rapid fabrication of 316L stainless steel. Applied Surface Science. 2005;247:

Aerospace Engineering

320-327
