List of scientific publications with UGent, M2i and TU Delft between 2010 and 2022 (updated from Google scholar on March of 2022)

1. Vittorietti, M., Hidalgo, J., Galán López, J., & Sietsma, J. (2022). A Data-Driven Approach for Studying the Influence of Carbides on Work Hardening of Steel. Materials.
2. Galán-López, J., Shakerifard, B., Ochoa-Avendaño, J., & Kestens, L. (2021). Advanced Crystal Plasticity Modeling of Multi-Phase Steels: Work-Hardening, Strain Rate Sensitivity and Formability. Applied Sciences.
3. Traka, K., Sedighiani, K., Bos, C., Lopez, J., Angenendt, K., Raabe, D., & Sietsma, J. (2021). Topological aspects responsible for recrystallization evolution in an IF-steel sheet–Investigation with cellular-automaton simulations. Computational Materials Science.
4. Kestens, L., Lopez, J., Pirgazi, H., Nguyen-Minh, T., & Petrov, R. (2021). Texture Observation and Control in Metal Manufacturing: Theory and Practice. IOP Conference Series: Materials Science and Engineering.
5. Galán López, J. & Kestens, L. (2021). A multivariate grain size and orientation distribution function: derivation from electron backscatter diffraction data and applications. Journal of Applied Crystallography.
6. Galán-López, J. & Hidalgo, J. (2020). Use of the Correlation between Grain Size and Crystallographic Orientation in Crystal Plasticity Simulations: Application to AISI 420 Stainless Steel. Crystals.
7. Traka, K., Sedighiani, K., Bos, K., Lopez, J., Diehl, M., Angenendt, K., Kestens, L., Raabe, D., & Sietsma, J. (2020). A Coupled Crystal Plasticity–Cellular Automaton Method for 3D Modeling of Recrystallization: Part II: Subgrain Growth for Recrystallization. International Conference on Plasticity, Damage, and Fracture.
8. Shakerifard, B., Galan Lopez, J., & Kestens, L. (2020). A New Electron Backscatter Diffraction-Based Method to Study the Role of Crystallographic Orientation in Ductile Damage Initiation. Metals.
9. Shakerifard, B., Lopez, J., Legaza, M., Verleysen, P., & Kestens, L. (2019). Strain rate dependent dynamic mechanical response of bainitic multiphase steels. Materials Science and Engineering: A.
10. Shakerifard, B., Lopez, J., Hisker, F., & Kestens, L. (2018). Crystallographically resolved damage initiation in advanced high strength steel. IOP Conference Series: Materials Science and Engineering.
11. Galán-López, J. & Kestens, L. (2018). Optimization of Crystallographic Texture for Sheet-forming Applications Using Taylor-based Models. Metallurgical and Materials Transactions A.
12. Shakerifard, B., Lopez, J., Hisker, F., & Kestens, L. (2018). Effect of banding on micro-mechanisms of damage initiation in bainitic/martensitic steels. Materials Science and Engineering: A.
13. Galán-López, J. & Verleysen, P. (2018). Simulation of the plastic response of Ti–6Al–4V thin sheet under different loading conditions using the viscoplastic self-consistent model. Materials Science and Engineering: A.
14. Verleysen, P., Galan Lopez, J., Naghdy, S., & Kestens, L. (2016). Static and dynamic behavior of aluminium processed by high pressure torsion. .
15. Galan-Lopez, J., Verleysen, P., & Kestens, L. (2016). Critical assessment of the Johnson-Cook and VPSC models to describe the quasi-static and dynamic behaviour of Ti-6Al-4V in an implicit finite element scheme. ICILSM 2016.
16. Verleysen, P. & Galan-Lopez, J. (2016). Experimental and numerical prediction of the static and dynamic forming properties of ti6al4v. International conference on High Speed Forming 2016.
17. López, J., Hisker, F., ThyssenKrupp, A., Verleysen, P., & Avendano, J. (2015). Behnam Shakerifard. Delft University of Technology.
18. Verleysen, P., Galan Lopez, J., Naghdy, S., & Kestens, L. (2015). Static and dynamic behaviour of aluminium processed. Euromech COLLOQUIUM.
19. Galán López, J., Verleysen, P., Naghdy, S., & Kestens, L. (2015). Comparison of the Johnson-Cook and VPSC Models to Describe the Constitutive Behaviour of Ti-6Al-4V in an Implicit Finite Element Scheme. Material Forming ESAFORM 2015.
20. Galan-Lopez, J., Naghdy, S., Verleysen, P., Kestens, L., Coghe, F., Rabet, L., & Degrieck, J. (2015). Mechanical behavior and texture prediction of Ti-6Al-4V based on elastic viscoplastic self-consistent modelling. IOP Conference Series: Materials Science and Engineering.
21. Galan Lopez, J. (2014). Crystal plasticity based modelling of the strain rate dependent mechanical behaviour of Ti‑6Al‑4V. .
22. Galán, J., Verleysen, P., & Lebensohn, R. (2014). An improved algorithm for the polycrystal viscoplastic self-consistent model and its integration with implicit finite element schemes. Modelling and Simulation in Materials Science and Engineering.
23. Galán, J., Verleysen, P., & Degrieck, J. (2013). Thermal effects during tensile deformation of Ti‐6Al‐4V at different strain rates. Strain.
24. López, J., Verleysen, P., & Degrieck, J. (2012). High strain rate and quasi-static tensile behaviour of Ti-6Al-4V after cyclic damage. EPJ Web of Conferences.
25. Lopez, J., Verleysen, P., & Degrieck, J. (2012). Effect of fatigue damage on static and dynamic tensile behaviour of electro‐discharge machined Ti‐6Al‐4V. Fatigue & Fracture of Engineering Materials & Structures.
26. Galán, J., Samek, L., Verleysen, P., Verbeken, K., & Houbaert, Y. (2012). Aceros avanzados de alta resistencia en la industria automovilística. Revista de Metalurgia.
27. Galán, J., Samek, L., Verleysen, P., Verbeken, K., & Houbaert, Y. (2012). Advanced high strength steels for automotive industry. Revista de metalurgia.
28. López, J., Peirs, J., Verleysen, P., & Degrieck, J. (2011). Effect of small temperature variations on the tensile behaviourof Ti-6Al-4 V. Procedia Engineering.
29. López, J., Verleysen, P., De Baere, I., & Degrieck, J. (2011). Tensile properties of thin-sheet metals after cyclic damage. Procedia Engineering.
30. Lópeza, J., Verleysen, P., De Baere, I., & Degrieck, J. (2010). Pre-fatigue influence on quasi-static tensile properties of Ti-6Al-4V in thin-sheet form. EPJ Web of Conferences.
31. López, J., Verleysen, P., & Degrieck, J. (). Combined fatigue-impact behaviour of thin metal sheets. .