References
- Amante DM. Fabrication defects in shipbuilding and offshore construction [monograph]. Rio de Janeiro: Polytechnic School, Federal University of Rio de Janeiro; 2006.
- Kennedy GA. Welding technology. Indianapolis, IN: The Bobbs-Merrill; 1979. Chapter 4, Welding heat effects; p. 96–111.
- Okumura T, Taniguchi C. Engineering of welding and applications. São Paulo: LTC; 1982. p. 461.
- American Welding Society – AWS. Welding handbook: welding science and technology. Vol. 1, Miami, FL: American Welding Society; 2001. Residual stress and distortion; p. 358–397.
- Miranda LH, Bracarense AQ. Reduction of angular distortion in weld beads on low-carbon steel sheet using forced cooling of the molten pool. Tecnologia em Metallurgia e Materiais. 2007;4(2):17–20. doi:10.4322/tmm.00402004.
- Araujo DB. Investigation of welding distortion with numerical and optimization techniques [doctorate thesis]. Uberlândia: School of Mechanical Engineering, Federal University of Uberlândia; 2012.
- Locatelli FR. Modelling the temperature field and distortions of a Tee joint welded by the GMWA process [master’s dissertation]. Porto Alegre: School of Mechanical Engineering, Federal University of Rio Grande do Sul; 2014.
- Rogana WG, Bracarense AQ. Design of a dynamic loading simulator for minimizing distortions and thermal and residual stresses generated in weld beads. In: Annals of the 15th Brazilian Congress of Mechanical Engineering. Rio de Janeiro: ABCM; 1999.
- Pereira JH, Bracarense AQ. Continuous monitoring of distortion occurring in robotic GMAW welding of a reduced-scale model of a segmented ring using laser sensors. In: Annals of the 41st National Welding Congress; Salvador: ABS; 2015.
- Modenesi PJ, Marques PV, Santos DB. Introduction to welding metallurgy. Belo Horizonte: UFMG; 2012 [cited 2014 May 22]. Available from: http://demet.eng.ufmg.br/wp-content/uploads/2012/10/metalurgia.pdf.
- Tavares M. Statistics applied to public administration. Florianópolis: Open University System of Brazil; 2011. p. 202.