Projects funded by the NCN

Information on the principal investigator and host institution

Information of the project and the call

Keywords

Equipment

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Development and validation of concurent random cellular automata - finite element (RCAFE) model with virtual microstructure representation for modelling failure in multi-phase metallic materials

2014/14/E/ST8/00332

Keywords:

multi-phase metallic materials cellular automata method wirtual material representation

Descriptors:

  • ST8_8: Mechanics of solids
  • ST8_3: Computational engineering, computer-aided modelling, design and manufacturing
  • ST6_12: Scientific computing, simulation and modelling tools

Panel:

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

Host institution :

Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie, Wydział Inżynierii Metali i Informatyki Przemysłowej

woj. małopolskie

Other projects carried out by the institution 

Principal investigator (from the host institution):

dr hab. Łukasz Madej 

Number of co-investigators in the project: 7

Call: SONATA BIS 4 - announced on 2014-06-16

Amount awarded: 428 500 PLN

Project start date (Y-m-d): 2015-05-15

Project end date (Y-m-d): 2018-05-14

Project duration:: 36 months (the same as in the proposal)

Project status: Project settled

Equipment purchased [PL]

  1. Serwer obliczeniowy (15 000 PLN)

Information in the final report

  • Publication in academic press/journals (6)
  • Articles in post-conference publications (4)
  1. Development and validation of multi scale failure model for dual phase steels
    Authors:
    K. Perzyńskia, A. Wrożyna, R. Kuziak, A. Legwanda, L. Madeja
    Academic press:
    Finite Elements in Analysis and Design (rok: 2017, tom: Vol. 124, strony: 45494), Wydawca: Elsevier
    Status:
    Published
    DOI:
    10.001 - link to the publication
  2. Fracture modeling in dual-phase steel grades based on the random cellular automata finite element approach
    Authors:
    Konrad Perzynski and Lukasz Madej
    Academic press:
    Simulation : Transactions of the Society for Modeling and Simulation International. (rok: 2015, tom: vol. 92 iss. 2, strony: 195–207), Wydawca: Simulation with Cellular Automata
    Status:
    Published
    DOI:
    10.1177/0037549715622280 - link to the publication
  3. Complex Hybrid Numerical Model in Application to Failure Modelling in Multiphase Materials
    Authors:
    Konrad Perzynski, Lukasz Madej
    Academic press:
    Archives of Computational Methods in Engineering (rok: 2017, tom: Vol. 24, Nr 4, strony: 870 - 890), Wydawca: Springer
    Status:
    Published
    DOI:
    10.1007/s11831-016-9195-y - link to the publication
  4. Identification of critical strains for the random cellular automata finite element failure model based on in-situ tensile test
    Authors:
    Perzynski K., Wang J., Radwanski K., Muszka K., Madej L.,
    Academic press:
    Mechanics of Materials (rok: 2019, tom: 133, strony: 154-164), Wydawca: Elsevier
    Status:
    Published
    DOI:
    10.1016/j.mechmat.2019.03.013 - link to the publication
  5. Numeryczny model pękania dla stali dwufazowych
    Authors:
    Perzyński, K., Madej, Ł.
    Academic press:
    Hutnik, Wiadomości Hutnicze (rok: 2016, tom: Vol. 83, nr 4, strony: 141-146), Wydawca: Wydawnictwo SIGMA-NOT
    Status:
    Published
    DOI:
    10.15199/24.2016.4.3 - link to the publication
  6. VALIDATION OF THE DUAL-PHASE STEEL FAILURE MODEL AT THE MICROSCALE
    Authors:
    Konrad Perzynski, Yuriy Ososkov, David S.Wilkinson, Mukesh Jain, JiangtingWang, Lukasz Madej
    Academic press:
    International Journal for Multiscale Computational Engineering, (rok: 2017, tom: Vol. 15, nr 5, strony: 443 - 458), Wydawca: BEGELL HOUSE INC
    Status:
    Published
    DOI:
    10.1615/IntJMultCompEng.2017020395 - link to the publication
  1. Development of the numerical procedure for identification of the random cellular automata finite element fracture model parameters based on the in-situ tensile test.
    Authors:
    Konrad Perzyński, Jinagting Wang, Krzysztof Radwański, Łukasz Madej
    Conference:
    CMM-2017 – 22nd Computer Methods in Mechanics (rok: 2017, ), Wydawca: Lublin University of Technology
    Data:
    konferencja September 13–16, 2017
    Status:
    Published
  2. HYBRID FE/XFE FINITE ELEMENT MODEL FOR SIMULATION OF BRITTLE-DUCTILE FRACTURES IN DUAL-PHASE STEEL GRADES.
    Authors:
    K. Perzyński, L. Madej
    Conference:
    ECCOMAS Congress 2016 VII European Congress on Computational Methods in Applied Sciences and Engineering (rok: 2016, ), Wydawca: Eccomas
    Data:
    konferencja 5–10 June 2016
    Status:
    Published
  3. REPRESENTATIVENESS ASPECTS OF DIGITAL MATERIAL REPRESENTATION MODEL OF DUAL PHASE STEEL
    Authors:
    Łukasz Madej, Aneta Muzyk, Konrad Perzyński, Jiangting Wang
    Conference:
    MS&T 17 - Materials Science & Technology Conference & Exhibition (rok: 2017, ), Wydawca: The American Ceramic Society
    Data:
    konferencja 8 -12 October 2017
    Status:
    Published
  4. XFE/FE multiscale brittle-ductile fracture model based on the digital material representation concept
    Authors:
    K. Perzynski, A. Wrożyna, R. Kuziak, L. Madej
    Conference:
    Special workshop Multiscale Modeling of Heterogeneous Structures (rok: 2016, ), Wydawca: Leibniz University Hannover
    Data:
    konferencja 21-23 09
    Status:
    Published

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