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Publikationen von Dr.-Ing. Jonathan Montalvo Urquizo

Buchkapitel (3)

  1. A. Schmidt, C. Niebuhr, J. Montalvo Urquizo, M. G. Villarreal-Marroquin.
    Simulation and multi-objective optimization of thermal distortions for milling processes.
    Progress in Industrial Mathematics at ECMI 2018, Springer Mathematics in Industry Vol. 30, S. 421-428, Springer Verlag, 2019.
  2. J. Montalvo Urquizo, A. Schmidt.
    Simulation Technologies: FEM-Simulation.
    Micro Metal Forming, F. Vollertsen (Hrsg.), Production & Process Engineering, S. 347-359, Springer Verlag, 2013.

    online unter: Springer-Verlag Website

  3. J. Montalvo Urquizo, P. Bobrov, W. Brannath.
    Simulation Technologies: Hybrid Simulation.
    Micro Metal Forming, F. Vollertsen (Hrsg.), Production & Process Engineering, S. 359-368, Springer Verlag, 2013.

    online unter: Springer-Verlag Website

Zeitschriftenartikel (11)

  1. M. Jahn, J. Montalvo Urquizo.
    Modeling and simulation of keyhole-based welding as multi-domain problem using the extended finite element method.
    Applied Mathematical Modelling, 82:731-747, Elsevier, 2020.
  2. E. Bänsch, A. Luttmann, J. Montalvo Urquizo, A. Schmidt, M. G. Villarreal-Marroquin.
    Simulation and multi-objective optimization to improve the final shape and process efficiency of a laser-based material accumulation process.
    Journal of Mathematics in Industry, 10(2), 30 p., 2020.
  3. J. Montalvo Urquizo, C. Niebuhr, A. Schmidt, M. G. Villarreal-Marroquin.
    Reducing deformation, stress and tool wear during milling processes using simulation-based multiobjective optimization.
    The International Journal of Advanced Manufacturing Technology, 96:1859-1873, 2018.
  4. D. Hömberg, Q. Liu, J. Montalvo Urquizo, D. Nadolski, T. Petzold, A. Schmidt, A. Schulz.
    Simulation of multi-frequency-induction-hardening including phase transitions and mechanical effects.
    Finite Elements in Analysis and Design, Vol 121:86-100, Elsevier, 2016.
  5. J. Montalvo Urquizo, Q. Liu, A. Schmidt.
    Simulation of quenching involved in induction hardening including mechanical eff ects.
    Computational Materials Science, 79:639-649, Elsevier, 2013.

    DOI: 10.1016/j.commatsci.2013.06.058

  6. J. Montalvo Urquizo, M. Ungermann.
    Size Selection for Representative Volume Elements on Texturized Thin Metallic Sheets under Elastic Loads.
    PAMM, 2013 1:265-266, WILEY-VCH, 2013.

    DOI: DOI: 10.1002/pamm.201310128
    online unter: http://onlinelibrary.wiley.com/doi/10.1002/pamm.201310128/abstract

  7. J. Montalvo Urquizo, P. Bobrov, W. Wosniok, A. Schmidt.
    Elastic responses of texturized microscale materials using FEM simulations and stochastic material properties.
    Mechanics of Materials, 47:1-10, Elsevier, 2012.

    DOI: 10.1016/j.mechmat.2011.11.008

  8. J. Montalvo Urquizo.
    Material libraries for texturized thin metal sheets in elastic range.
    PAMM, 12(1):235-236, WILEY-VCH, 2012.
  9. P. Bobrov, J. Montalvo Urquizo, A. Schmidt, W. Wosniok.
    Mechanic-Stochastic Model for the Simulation of Polycrystals.
    PAMM, Vol. 10(1):279-280, WILEY-VCH, 2010.

    DOI: 10.1002/pamm.201010132

  10. J. Montalvo Urquizo, Z. Akbay, A. Schmidt.
    Adaptive finite element models applied to the laser welding problem.
    Computational Materials Science, 46(1):245-254, Elsevier, 2009.

    DOI: 10.1016/j.commatsci.2009.02.037

  11. J. Montalvo Urquizo.
    On the geometrical origins of conjugate gradient methods (in spanish).
    Aportaciones Matemáticas Comunicaciones, Vol. 29:189-200, 2000.

Preprints (6)

  1. M. Jahn, J. Montalvo Urquizo.
    Using the eXtended finite element method for keyhole-based welding processes.
    Berichte aus der Technomathematik 18-02, Universität Bremen, 2018.
  2. J. Montalvo Urquizo, C. Niebuhr, M. G. Villarreal-Marroquin.
    Simulation-based Multiobjective Optimization for Milling Processes.
    Berichte aus der Technomathematik 17-02, Universität Bremen, 2017.
  3. J. Montalvo Urquizo, Q. Liu, A. Schmidt.
    Quenching simulation for the induction hardening process - Thermal and mechanical effects.
    Berichte aus der Technomathematik 13-02, Universität Bremen, 2013.
  4. J. Montalvo Urquizo, M. Ungermann.
    Numerical experiments for the appropiate representative volume element size selection on thin texturized metals under mechanical loads.
    Berichte aus der Technomathematik 12-04, Universität Bremen, 2012.
  5. P. Bobrov, J. Montalvo Urquizo, A. Schmidt, W. Wosniok.
    Mechanic-Stochastic Model for the Simulation of Polycrystals.
    Berichte aus der Technomathematik 10-03, Universität Bremen, 2010.
  6. P. Bobrov, J. Montalvo Urquizo, A. Schmidt, W. Wosniok.
    Stochastic model and simulation of mechanical responses for texturized microscale materials under elastic deformation.
    Berichte aus der Technomathematik 10-04, Universität Bremen, 2010.

Qualifikationsarbeiten (1)

  1. J. Montalvo Urquizo.
    Simulation and Optimization of Laser Welding on Aluminium Alloys.
    Dissertationsschrift, Universität Bremen, Dr. Hut Verlag, 2008.

Tagungsbeiträge (7)

  1. P. Bobrov, J. Montalvo Urquizo.
    Calculation of effective elastic constants for texturized steel through numerical experiments (in Russian).
    7th Russian Conference on Science and Tehnology: Mechanics of micro materials and damage, 23.04.-27.04.12, Ekaterinburg, Jekaterinburg.
  2. S. Bökenheide, J. Montalvo Urquizo, M. Wolff.
    Modelling of creep and TRIP during heating and austenitisation.
    European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), 10.09-14.09.2012, Wien, Österreich.
  3. P. Bobrov, J. Montalvo Urquizo, J. Lütjens, W. Brannath, W. Wosniok, A. Schmidt, M. Hunkel.
    Ein stochastisches Modell zur Rekonstruktion elastischer Eigenschaften für texturierte Metalle.
    Kolloquium Mikroproduktion und Abschlusskolloquium SFB 499, 11.10.-12.10.2011, Karlsruhe, Deutschland.

    online unter: Proceedings Fulltext as PDF

  4. J. Montalvo Urquizo.
    Mechanic-stochastic model for the simulation of elastic material response in thin metallic polycrystals.
    7th GRACM International Congress on Computational Mechanics, 29.06.-02.07.2011, Athen, Griechenland.
    Conference Proceedings, 2011.
  5. J. Montalvo Urquizo, P. Bobrov, W. Brannath, W. Wosniok, A. Schmidt, M. Hunkel, J. Lütjens.
    Stochastic model for textured polycrystals.
    5th International Conference CHEBYSHEV, 14.05.2011-18.05.2011.
  6. P. Bobrov, J. Lütjens, J. Montalvo Urquizo, W. Wosniok, M. Hunkel, A. Schmidt, J. Timm.
    Zur verteilungsbasierten Modellierung von Mikrowerkstoffen.
    4. Kolloquium Mikroproduktion, 28.-29.10.2009, Bremen, Deutschland.
  7. Z. Akbay, J. Montalvo Urquizo, T. Pretorius, F. Vollertsen.
    Fast FEM-Model and Keyhole-Heat Source Model for Self-Optimized Simulation of Laser Welding Processes.
    International Workshop on Thermal Forming and Welding, 22.04.-23.04.2008, Bremen, Deutschland.
    Thermal Forming and Welding Distortion, Proceedings of the IWOTE'08, F. Vollertsen, J. Sakkiettibutra (Hrsg.), S. 277-288, 2008.

Sonstiges (2)

  1. J. Montalvo Urquizo, Z. Akbay, A. Schmidt, T. Pretorius.
    Adaptive Finite Element Models Applied to the Laser Welding Problem.
    Berichte aus der Technomathematik 08-03, Universität Bremen, 2008.
  2. J. Montalvo Urquizo, A. Schmidt.
    Mathematical Optimization of Simulated Laser Welds Mathematical Optimization of Simulated Laser Welds on Aluminum Alloys.
    Berichte aus der Technomathematik 08-04, Universität Bremen, 2008.