References
- Boivineau, M., et al., 2006. Thermophysical properties of solid and liquid Ti-6Al-4V (TA6V) alloy. International Journal of Thermophysics, 27, 507–529.
- BSSA (British Stainless Steel Association), 2014. Available from: http://www.bssa.org.uk/ [ Accessed 10 January 2015].
- De Oliveira, U., Ocelík, V., and De Hosson, J.T., 2006. Residual stress analysis in Co-based laser clad layers by laboratory X-rays and synchrotron diffraction techniques. Surface and Coatings Technology, 201, 533–542.
- Furumoto, T., et al., 2010. Study on reduction of residual stress induced during rapid tooling process: influence of heating conditions on residual stress. Key Engineering Materials, 447/448, 785–789.
- Gusarov, A., Malakhova-Ziablova, I., and Pavlov, M., 2013. Thermoelastic residual stresses and deformations at laser treatment. Physics Procedia, 41, 889–896.
- Ho, C. Y. and Chu, T. K., 1977. Electrical resistivity and thermal conductivity of nine selected AISI stainless steels (Cinias Report 45). Washington, DC: American Iron and Steel Institute.
- Kruth, J.-P., et al., 2012. Assessing and comparing influencing factors of residual stresses in selective laser melting using a novel analysis method. Journal of Engineering Manufacture, 226, 980–991.
- Li, J.J.Z., Johnson, W.L., and Rhima, W.-K., 2006. Thermal expansion of liquid Ti–6Al–4V measured by electrostatic levitation. Applied Physics Letters, 89, 111913 10.1063/1.2349840.
- Mercelis, P. and Kruth, J.-P., 2006. Residual stresses in selective laser sintering and selective laser melting. Rapid Prototyping Journal, 12, 254–265.
- Mills, K.C., 2002. Recommended values of thermophysical properties for selected commercial alloys. Cambridge: Woodhead.
- NiDI (Nickel Development Institute), 2014. High-temperature characteristics of stainless steels. Washington, DC: American Iron and Steel Institute.
- Rafi, H., et al., 2013. Microstructures and mechanical properties of Ti6Al4V parts fabricated by selective laser melting and electron beam melting. Journal of Materials Engineering and Performance, 22, 3873–3883.
- Van Belle, L., Vansteenkiste, G., and Boyer, J.-C., 2012. Comparisons of numerical modelling of the selective laser melting. Key Engineering Materials, 504–506, 1067.
- Vrancken, B., et al., 2013. Study of the influence of material properties on residual stress in selective laser melting. In: D. Bourell, et al., eds. Proceedings of the 2013 Solid Freeform Fabrication Symposium. Austin, TX: University of Texas at Austin, 393–407.
- Yadroitsev, I., 2009. Selective laser melting: direct manufacturing of 3D-objects by selective laser melting of metal powders. Saarbrücken: Lambert Academic.
- Yadroitsev, I., et al., 2012. Factor analysis of selective laser melting process parameters and geometrical characteristics of synthesized single tracks. Rapid Prototyping Journal, 8, 201–208.
- Zaeh, M. and Branner, G., 2010. Investigations on residual stresses and deformations in selective laser melting. Production Engineering, 4, 35–45.