• Articles - Web of Science

    1. Guzmán, C. F., Ben Bettaieb, A., Sena, J. I. V., Alves de Sousa, R. J., Habraken, A.-M., & Duchêne, L. (2012). Evaluation of the Enhanced Assumed Strain and Assumed Natural Strain in the SSH3D and RESS3 Solid Shell Elements for Single Point Incremental Forming Simulation. In M. Merklein & H. Hagenah (Eds.), Key Engineering Materials (Vol. 504–506, pp. 913–918). Erlangen, Germany: Trans Tech Publications.

    2. Guzmán, C. F., Gu, J., Duflou, J. R., Vanhove, H., Flores, P., & Habraken, A.-M. (2012). Study of the geometrical inaccuracy on a SPIF two-slope pyramid by finite element simulations. International Journal of Solids and Structures, 49(25), 3594–3604.

    3. Guzmán, C. F., & Habraken, A.-M. (2013). Towards fracture prediction in single point incremental forming. In R. J. Alves de Sousa & R. A. F. Valente (Eds.), Key Engineering Materials (Vol. 554–557, pp. 2355–2362). Aveiro, Portugal: Trans Tech Publications.

    4. Sena, J. I. V., Guzmán, C. F., Duchêne, L., Habraken, A.-M., Valente, R. A. F., & Alves de Sousa, R. J. (2013). Numerical simulation of a conical shape made by single point incremental. In J. W. Yoon, T. B. Stoughton, B. Rolfe, J. H. Beynon, & P. Hodgson (Eds.), AIP Conference Proceedings (pp. 852–855). Melbourne, Australia: American Institute of Physics.

    5. Duchêne, L., Guzmán, C. F., Behera, A. K., Duflou, J. R., & Habraken, A.-M. (2013). Numerical Simulation of a Pyramid Steel Sheet Formed by Single Point Incremental Forming Using Solid-Shell Finite Elements. In R. B. Clarke, A. G. Leacock, J. R. Duflou, M. Merklein, & F. Micari (Eds.), Key Engineering Materials (Vol. 549, pp. 180–188). Belfast, United Kingdom: Trans Tech Publications.

    6. Sena, J. I. V., Guzmán, C. F., Duchêne, L., Habraken, A. M., Behera, A. K., Duflou, J., & Alves de Sousa, R. J. (2016). Simulation of a two-slope pyramid made by SPIF using an adaptive remeshing method with solid-shell finite element. International Journal of Material Forming, 9(3), 383–394.

    7. Tuninetti, V., Yuan, S., Gilles, G., Guzmán, C. F., Habraken, A.-M., & Duchêne, L. (2016). Modeling the ductile fracture and the plastic anisotropy of DC01 steel at room temperature and low strain rates. In R. P. R. Cardoso, E. A. de Souza Neto, J. M. A. César de Sá, & O. B. Adetoro (Eds.), Journal of Physics: Conference Series (Vol. 734, p. 032075). Bristol, United Kingdom: IOP Publishing.

    8. Guzmán, C. F., Saavedra Flores, E. I., Pina, J. C., & Yañez, S. (2017). Finite element approach to simulate CNT-reinforced Calcium-Silicate-Hydrate (C-S-H) composite. In J. F. Silva Gomes & S. A. Meguid (Eds.), Proceedings of the 7th International Conference on Mechanics and Materials in Design (pp. 671–676). Algarve, Portugal: INEGI/FEUP.

    9. Hristov, P. O., DiazDelaO, F. A., Saavedra Flores, E. I., Guzmán, C. F., & Farooq, U. (2017). Probabilistic sensitivity analysis to understand the influence of micromechanical properties of wood on its macroscopic response. Composite Structures, 181, 229–239.

    10. Guzmán, C. F., Yuan, S., Duchêne, L., Saavedra Flores, E. I., & Habraken, A. M. (2018). Damage prediction in single point incremental forming using an extended Gurson model. International Journal of Solids and Structures, 151, 45-56.

    11. Guzmán, C. F., Saavedra Flores, E. I., & Habraken, A. M. (2018). Damage characterization in a ferritic steel sheet: Experimental tests, parameter identification and numerical modeling. International Journal of Solids and Structures, 155, 109-122.

    12. García-Macías, E., Guzmán, C. F., Saavedra Flores, E. I., & Castro-Triguero, R. (2019). Multiscale modeling of the elastic moduli of CNT-reinforced polymers and fitting of efficiency parameters for the use of the extended rule-of-mixtures. Composites Part B: Engineering, 159, 114–131.

    13. Iquilio, R. A., Cerda, F. M. C., Monsalve, A., Guzmán, C. F., Yanez, S. J., Pina, J. C., Vercruysse, F., Petrov, R.H., Saavedra Flores, E. I. (2019). Novel experimental method to determine the limit strain by means of thickness variation. International Journal of Mechanical Sciences, 153-154, 208-218.

    14. Ahmed, S. M., Avudaiappan, S., Sheet, I. S., Saavedra Flores, E. I., Pina, J. C., Yanez, S. J., & Guzmán, C. F.(2019). Prediction of longitudinal shear resistance of steel-concrete composite slabs. Engineering Structures, 193, 295–300.

    15. Díaz, A. R., Saavedra Flores, E. I., Yanez, S. J., Vasco, D. A., Pina, J. C., & Guzmán, C. F.(2019). Multiscale modeling of the thermal conductivity of wood and its application to cross-laminated timber. International Journal of Thermal Sciences, 144, 79–92.


    Other indexed articles

    1. Guzmán, C. F., Tuninetti, V., Gilles, G., & Habraken, A.-M. (2015). Assessment of Da
      mage and Anisotropic Plasticity Models to Predict Ti-6Al-4V Behavior. In A. Ofenheimer, C. Poletti, D. Schalk-Kitting, & C. Sommitsch (Eds.), Key Engineering Materials (Vol. 651–653, pp. 575–580). Graz, Austria: Trans Tech Publications.

    2. Betaieb, E., Yuan, S., Guzmán, C. F., Duchêne, L., & Habraken, A.-M. (2019). Prediction of cracks within cones processed by single point incremental forming. In J. R. Duflou, Y. Carette, L. Fratini, F. Micari, M. Merklein, & H. Hagenah (Eds.), Procedia Manufacturing (Vol. 29, pp. 96–104). Leuven, Belgium: Elsevier.