Papers (pdf)


  1. M. Miguel, M. Leite, A.M.R. Ribeiro, A.M. Deus, L. Reis, M.F. Vaz, "Failure of polymer coated nylon parts produced by additive manufacturing", Engineering Failure Analysis 101 (2019) 485–492, https://doi.org/10.1016/j.engfailanal.2019.04.005 .

  2. Vicente, C.M.S., Fernandes, J., Reis, L., de Deus, A. M., Vaz, M. F., Leite, M., "Effect of protective coatings on the water absorption and mechanical properties of 3D printed PLA", Frattura ed Integrità Strutturale, 48 (2019) 748-756.

  3. Sousa R.O., Felde I., Ferreira P.J., Deus A.M., Ribeiro L.M.M. (2019), "Inverse Methodology for Estimating the Heat Transfer Coefficient in a Duplex Stainless Steel Casting". In: Silva L. (eds) Materials Design and Applications II. Advanced Structured Materials, vol 98. Springer, Cham, pp 59-69.

  4. H Araújo, M Leite, AR Ribeiro, AM Deus, L Reis and M Fátima Vaz, "The effect of geometry on the flexural properties of cellular core structures", Proc IMechE Part L: J Materials: Design and Applications 2019, Vol. 233(3) 338–347. DOI: 10.1177/1464420718805511.

  5. T Réti, A M Deus, I Felde and M Réger, "On the possible generalization of JMAK-type kinetic functions", IOP Conf. Series: Materials Science and Engineering 426 (2018) 012039 doi:10.1088/1757-899X/426/1/012039.

  6. S. Szénási, I. Felde, G. Nagy and A. Deus, "Estimating the Heat Transfer Coefficient Using Universal Function Approximator Neural Network", 2018 IEEE 12th International Symposium on Applied Computational Intelligence and Informatics (SACI), Timisoara, Romania, 2018, pp. 000401-000404.

  7. H. Araújo, M.Leite, A.R. Ribeiro, A.M. Deus, L. Reis, M.F. Vaz,  "Effect of Geometry on the Mechanical and Failure Properties of Cellular Core Structures",  NT2F18-18th International Conference on New Trends in Fatigue and Fracture. Fatigue and Fracture at all Scales, Lisbon, Portugal, July 17 - 20, 2018, p. 275-278.

  8. João Fernandes, Augusto M. Deus, Luis Reis, Maria Fátima Vaz, Marco Leite, “Study of the influence of 3D printing parameters on the mechanical properties of PLA”, 3rd International Conference on Progress in Additive Manufacturing (Pro-AM 2018), 14-17 May 2018, Singapore, C.K. Chua, W.Y. Yeong, M.J. Tan, E.J. Liu and S.B. Tor (editors).

  9. Z. Fried, G. Pintér, S. Szénási, I. Felde, K. Szél, A. Sáfár, R.O. Sousa, A. Deus, “On the Nature-Inspired Algorithms Applied to Characterize Heat Transfer Coefficients”, Thermal Processing in Motion 2018—Conference Proceedings of the Thermal Processing in Motion, June 5-7, 2018, Spartanburg, South Carolina, USA, L. Ferguson, L. Frame, R. Goldstein, D. Guisbert, D. Scott MacKenzie, editors, p. 47-51.

  10. Rodrigues, F.C.,Silvestre, N.,Deus, A.M. "Nonlinear mechanical behaviour of γ-graphyne through an atomistic finite element model". Computational Materials Science 134 (2017), 171-183.
  11. P. Bicudo, J. Reis, A.M. Deus, L. Reis and M.F. Vaz. "Performance evaluation of dental implants: An experimental and numerical simulation study". Theoretical and Applied Fracture Mechanics, 85, Part A:74-83, 2016.
  12. P Brandão, V Infante, AM Deus, "Thermo-mechanical modeling of a high pressure turbine blade of an airplane gas turbine engine", Procedia Structural Integrity 1 (2016), 189-196.
  13. P Bicudo, J Reis, AM Deus, L Reis, MF Vaz, "Mechanical behaviour of dental implants", Procedia Structural Integrity 1 (2016), 26-33
  14. M. Guerrero, C. Simsir, A. Deus, B. Sarler, “Simulation and Optimization in Materials Technology”, Advances in Materials Science and Engineering, vol. 2014, Article ID 947319, 2014. doi:10.1155/2014/947319
  15. D. Navalho, A.M. Deus, V. Infante, I. Felde, “Residual Stresses Due to Quenching in Aluminum Forging Parts for Aerospace Applications: Finite Element Analysis and Contour Method Measurement”, Proceedings from the 6th International Quenching and Control of Distortion Conference, September 9–13, 2012, Chicago, Illinois, USA, D. Scott MacKenzie, ed., p. 281-293. 
  16. T. Reti, I. Felde, J. Grum, R. Colas, G. S. Sarmiento, A M de Deus, “Extension of Isothermal Time-Temperature Parameters to Non-isothermal Conditions: Application to the Simulation of Rapid Tempering”, Strojniški Vestnik - Journal of Mechanical Engineering 56(2010)2, 84-92. 
  17. I. Felde, T. Réti, G. Sarmiento, B. Smoljan, A. Deus, “Analysis of a numerical method developed for estimation of the heat transfer coefficient obtained during quenching”, NETSU SHORI Journal of the Japan Society for Heat Treatment, Vol. 49 (2), 2009, p. 816-819.
  18. Daniela Nunes, Patrícia Almeida Carvalho, Rodrigo Mateus, Isabel Nogueira, Augusto Moita de Deus, José Brito Correia, Nobumitsu Shohoji, Rui Gomes, Horácio Fernandes, Carlos Silva, Nuno Franco, Eduardo Alves, “Effects of hydrogen permeation on W, Mo and Cu Langmuir probes at ISTTOK”, in Materials for Future Fusion and Fission Technologies, edited by C.C. Fu, A. Kimura, M. Samaras, M. Serrano de Caro, R.E. Stoller (Mater. Res. Soc. Symp. Proc. Volume 1125, Warrendale, PA, 2009), 1125-R07-04.
  19. Antonio Crespo, Augusto M. Deus, Rui Vilar, "Modeling of Phase Transformations and Internal Stresses in Laser Powder Deposition", Proc. SPIE, Vol. 7131, 713120 (2008).
  20. A. Crespo, A.M. Deus, R. Vilar, “Modeling of heat transfer and phase transformations in the rapid manufacturing of dental prosthesis by laser powder micro-deposition”, Virtual and Rapid Manufacturing – Bártolo et al. (eds), p. 723-727, Taylor & Francis Group, London, 2008.
  21. M A Fortes, P I C Teixeira, A M Deus, "The shape of soap films and Plateau borders", J. Phys.: Condens. Matter 19 (2007) 246106 (13pp). 
  22. M. H. Godinho, A. C. Trindade, J. L. Figueirinhas, L. V. Melo, P. Brogueira, A. M. Deus, P. I. C. Teixeira, "Tuneable micro- and nano-periodic structures in a free-standing flexible urethane/urea elastomer film", Eur. Phys. J. E 21, 319-330 (2006).
  23. A.M. Deus, J. Mazumder, “Three-dimensional finite element models for the calculation of temperature and residual stress fields in laser cladding”, ICALEO 2006-25th International Congress on Applications of Lasers and Electro-Optics, Laser Materials Processing Conference, October 30  November 2, Scottsdale, Arizona, Laser Institute of America, Orlando, Florida, 2006, CD-ROM edition, paper n. 803, p. 496 - 505.
  24. A. Crespo, A. Deus, R. Vilar, “Finite element analysis of laser powder deposition of titanium”, ICALEO 2006-25th International Congress on Applications of Lasers and Electro-Optics, Laser Materials Processing Conference, October 30  November 2, Scottsdale, Arizona, Laser Institute of America, Orlando, Florida, 2006, CD-ROM edition, paper n. 2005, p. 1016 - 1021.
  25. L. Costa, R. Vilar, T. Reti, A.M. Deus, "Rapid tooling by laser powder deposition: Process simulation using finite element analysis", Acta Materialia 53, p. 3987-3999, (2005). 
  26. L. Costa, R. Vilar, T. Reti, R. Colaço, A.M. Deus, I. Felde, "Simulation of phase transformations in steel parts produced by laser powder deposition", Materials Science Forum Vols. 473- 474 (2005) pp. 315-320.
  27. M. A. Fortes, A. M. Deus, "Effects of triple grain junctions on equilibrium boundary angles and grain growth kinetics", Materials Science Forum Vols. 455- 456 (2004) pp. 648-652.
  28. L. Costa, R. Colaço, T. Reti, A. M. Deus, R. Vilar, "Tempering effects in steel parts produced by additive fabrication using laser powder deposition". Proceedings of the International Conference on Advanced Research in Virtual and Rapid Prototyping, Leiria, Portugal, 2003.
  29. A.M. Deus, M.A. Fortes, P.J. Ferreira, J.B. Vander Sande, "A general approach to grain growth driven by energy density differences", Acta Materialia 50 (13) (2002), p. 3317-3330. 
  30. L. Costa, A. M. Deus, T. Reti, R. Vilar, "Simulation of layer overlap tempering in steel parts produced by laser cladding", Proceedings of RPD 2002 – Advanced Solutions and Development, October 2002, Marinha Grande, Portugal, ed. J. Jorge et al.
  31. L. Costa, T. Reti, A. M. Deus, R. Vilar, "Simulation of layer overlap tempering kinetics in steel parts deposited by laser cladding", Proceedings of 2002 International Conference on Metal Powder Deposition for Rapid Manufacturing, April 2002, San Antonio, Texas, USA, ed. D. Keicher, J.W. Sears, J.E. Smugeresky, pp. 172-179.
  32. P. A. Carvalho, A. M. Deus, R. Colaço, R. Vilar, "Laser alloying of zinc with aluminum: solidification behavior", Acta Materialia 46 (5)(1998), p. 1781-1792. 
  33. A. M. de Deus, J. Mazumder, "Two-Dimensional Thermo-Mechanical Finite Element Model for Laser Cladding ", Proceedings of ICALEO ‘96, Laser Materials Processing, Vol. 81, p. B/174-183, Laser Institute of America, Orlando, Florida, 1996.
  34. A. M. Deus, R. Vilar, "One-dimensional thermal model including the dependence of absorptivity on temperature using Hagen-Rubens equation", "Laser Processing: Surface Treatment and Film Deposition", ed. J. Mazumder et al., p. 195-201, Kluwer Academic Publishers, Netherlands, 1996.
  35. M. A. Fortes, A. M. Deus, "Expansion of a foam due to absorption of an outside gas", Journal of Colloid and Interface Science, 176 (1995), p. 248-255.
  36. C. Lopes Gil, M.F. Ferreira Marques, Adriano P. de Lima, Rui Vilar, A.M. de Deus, Gottfried Kögel, Werner Triftshäuser, "Study of defects produced by laser surface melting using positron annihilation", Materials Science Forum 105-110 (1992) p. 1141- 1144. 
  37. A.M. Deus, R. Vilar, O. Conde, J.S. Figueira, "A relation between laser power and initial temperature in laser surface treatments of metals", "Surface Modification Technologies V", T. S. Sudarshan, J. F. Braza, (Eds.), p. 475-489, The Institute of Materials, London., 1992.
  38. O. Conde, A.M. Deus, M.L.G. Ferreira, A J. Silvestre, R. Vilar, "Versatile reactor for LCVD large films production", Vacuum 39 , n. 7/8 (1988) p. 861.


































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