Projects funded by the NCN

Information on the principal investigator and host institution

Information of the project and the call

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Advanced methods for massive parallel numerical computations in structural dynamics.

2019/33/B/ST8/02686

Keywords:

structural dynamics parallel computing space-time finite element method

Descriptors:

  • ST8_7: Machine design (modelling, shaping, machining)
  • ST8_3: Computational engineering, computer-aided modelling, design and manufacturing

Panel:

ST8 - Production and processes engineering: modelling, product design, process design and control, construction methods and engineering, power units and systems

Host institution :

Instytut Podstawowych Problemów Techniki Polskiej Akademii Nauk

woj.

Other projects carried out by the institution 

Principal investigator (from the host institution):

prof. Czesław Ireneusz Bajer 

Number of co-investigators in the project: 3

Call: OPUS 17 - announced on 2019-03-15

Amount awarded: 604 200 PLN

Project start date (Y-m-d): 2020-01-31

Project end date (Y-m-d): 2025-01-30

Project duration:: 60 months (the same as in the proposal)

Project status: Project completed

Project description

Download the project description in a pdf file

Note - project descriptions were prepared by the authors of the applications themselves and placed in the system in an unchanged form.

Information in the final report

  • Publication in academic press/journals (17)
  • Book publications / chapters in book publications (2)
  1. Space-Time Parallelisation Strategy for Finite Element Analysis of Vibrating Structures under a Moving Load
    Authors:
    B. Dyniewicz, J.M. Bajkowski, C.I. Bajer
    Academic press:
    Computers & Structures
    Status:
    Submitted
  2. An extended 2D Gao beam model
    Authors:
    B. Dyniewicz, M. Shillor, C. I. Bajer
    Academic press:
    Meccanica (rok: 2023, tom: 59, strony: 169-181), Wydawca: Springer
    Status:
    Published
    DOI:
    10.1007/s11012-023-01745-3 - link to the publication
  3. Effective Viscoplastic-Softening Model Suitable for Brain Impact Modelling
    Authors:
    B. Dyniewicz, J. M. Bajkowski and Czesław I. Bajer
    Academic press:
    Materials (rok: 2022, tom: 15, strony: 45670), Wydawca: MDPI
    Status:
    Published
    DOI:
    10.3390/ma15062270 - link to the publication
  4. Evaluation of instantaneous vibration parameters of a snowboard with a prototype granular dissipator
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Academic press:
    Sports Engineering (rok: 2022, tom: 25, strony: 45666), Wydawca: International Sports Engineering Association
    Status:
    Published
    DOI:
    10.1007/s12283-022-00382-5 - link to the publication
  5. Modelling and identifying a pressurized dilatant sand to be used as a smart damping material
    Authors:
    J. M. Bajkowski, B. Dyniewicz, J. Bajkowski, C. I. Bajer
    Academic press:
    Mechanical Systems and Signal Processing , Wydawca: Elsevier
    Status:
    Submitted
  6. An experimental study on granular dissipation for the vibration attenuation of skis
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Academic press:
    Proceedings of the Institution of Mechanical Engineers, Part P: J Sports Engineering and Technology (rok: 2021, tom: 235, strony: 13-20), Wydawca: SAGE Journals
    Status:
    Published
    DOI:
    10.1177/1754337120964015 - link to the publication
  7. Modelling and identifying a pressurized dilatant sand to be used as a smart damping material
    Authors:
    J. M. Bajkowski, B. Dyniewicz, J. Bajkowski, C. I. Bajer
    Academic press:
    Mechanical Systems and Signal Processing , Wydawca: Elsevier
    Status:
    Submitted
  8. An experimental study on granular dissipation for the vibration attenuation of skis
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Academic press:
    Proceedings of the Institution of Mechanical Engineers, Part P: J Sports Engineering and Technology (rok: 2021, tom: 235, strony: 13-20), Wydawca: SAGE Journals
    Status:
    Published
    DOI:
    10.1177/1754337120964015 - link to the publication
  9. Effective Viscoplastic-Softening Model Suitable for Brain Impact Modelling
    Authors:
    B. Dyniewicz, J. M. Bajkowski and Czesław I. Bajer
    Academic press:
    Materials (rok: 2022, tom: 15, strony: 45670), Wydawca: MDPI
    Status:
    Published
    DOI:
    10.3390/ma15062270 - link to the publication
  10. Smart elastic material with a moving local stiffness zone for reducing the effects of impact loading
    Authors:
    Dai Zhao, B. Dyniewicz and C.I. Bajer
    Academic press:
    Shock and Vibration (rok: 2023, tom: 2023, strony: 45667), Wydawca: Hindawi
    Status:
    Published
    DOI:
    10.1155/2023/6698248 - link to the publication
  11. Effective Viscoplastic-Softening Model Suitable for Brain Impact Modelling
    Authors:
    B. Dyniewicz, J. M. Bajkowski and Czesław I. Bajer
    Academic press:
    Materials (rok: 2022, tom: 15, strony: 45670), Wydawca: MDPI
    Status:
    Published
    DOI:
    10.3390/ma15062270 - link to the publication
  12. Modelling and identifying a pressurized dilatant sand to be used as a smart damping material
    Authors:
    J. M. Bajkowski, B. Dyniewicz, J. Bajkowski, C. I. Bajer
    Academic press:
    Mechanical Systems and Signal Processing , Wydawca: Elsevier
    Status:
    Submitted
  13. Efficient Strategy for Space-Time Based Finite Element Analysis of Vibrating Structures
    Authors:
    B. Dyniewicz, J. M. Bajkowski, C. I. Bajer
    Academic press:
    Computers and Mathematics with Applications (rok: 2023, tom: 148, strony: 70-80), Wydawca: Elsevier
    Status:
    Published
    DOI:
    10.1016/j.camwa.2023.08.002 - link to the publication
  14. Evaluation of instantaneous vibration parameters of a snowboard with a prototype granular dissipator
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Academic press:
    Sports Engineering (rok: 2022, tom: 25, strony: 45666), Wydawca: International Sports Engineering Association
    Status:
    Published
    DOI:
    10.1007/s12283-022-00382-5 - link to the publication
  15. An experimental study on granular dissipation for the vibration attenuation of skis
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Academic press:
    Proceedings of the Institution of Mechanical Engineers, Part P: J Sports Engineering and Technology (rok: 2021, tom: 235, strony: 13-20), Wydawca: SAGE Journals
    Status:
    Published
    DOI:
    10.1177/1754337120964015 - link to the publication
  16. Space-Time Parallelisation Strategy for Finite Element Analysis of Vibrating Structures under a Moving Load
    Authors:
    B. Dyniewicz, J.M. Bajkowski, C.I. Bajer
    Academic press:
    Computers & Structures
    Status:
    Submitted
  17. Space-Time Parallelisation Strategy for Finite Element Analysis of Vibrating Structures under a Moving Load
    Authors:
    B. Dyniewicz, J.M. Bajkowski, C.I. Bajer
    Academic press:
    Computers & Structures
    Status:
    Submitted
  1. Rheological Model and Parameter Identification of a Kinetic Sand Used as a Smart Damping Material
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Book:
    Experimental Vibration Analysis for Civil Engineering Structures (rok: 2022, tom: 224, strony: 657-664), Wydawca: Springer
    Status:
    Published
    DOI:
    10.1007/978-3-030-93236-7_54 - link to the publication
  2. Rheological Model and Parameter Identification of a Kinetic Sand Used as a Smart Damping Material
    Authors:
    J.M. Bajkowski, B. Dyniewicz, C.I. Bajer, J. Bajkowski
    Book:
    Experimental Vibration Analysis for Civil Engineering Structures (rok: 2022, tom: 224, strony: 657-664), Wydawca: Springer
    Status:
    Published
    DOI:
    10.1007/978-3-030-93236-7_54 - link to the publication

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