{"id":5,"date":"2012-02-17T08:47:19","date_gmt":"2012-02-17T08:47:19","guid":{"rendered":"http:\/\/galaxy.uci.agh.edu.pl\/~kperzyns\/?page_id=5"},"modified":"2023-09-05T08:00:43","modified_gmt":"2023-09-05T07:00:43","slug":"publications","status":"publish","type":"page","link":"https:\/\/home.agh.edu.pl\/~kperzyns\/?page_id=5","title":{"rendered":"Publications"},"content":{"rendered":"<h3><span id=\"badgeCont642530\" style=\"width: 126px;\"><script src=\"http:\/\/labs.researcherid.com\/mashlets?el=badgeCont642530&amp;mashlet=badge&amp;showTitle=false&amp;className=a&amp;rid=F-8574-2012\"><\/script>\u00a0<\/span><\/h3>\n<p><strong>PUBLICATION IN JOURNALS WITH IMPACT FACTOR (THOMSON SCIENTIFIC)<\/strong><\/p>\n<ol>\n<li>Perzy\u0144ski K., Cios G., Madej \u0141., Prediction of fracture evolution in the TiN\/Al thin films based on a full-field modelling approach, International Journal of Solids and Structures (in press).<\/li>\n<li>Perzy\u0144ski K., Pawlikowski K., Madej \u0141., The role of die definition in the numerical simulations of two-points incremental forming processes, Computer Methods in Materials Science 23(1), 5-11, 2023.<\/li>\n<li>Perzy\u0144ski K., The effect of model size and boundary conditions on the representativeness of digital material representation simulations of ferritic-pearlitic sample compression Computer Methods in Materials Science 22(2), 59-66, 2022.<\/li>\n<li>Szeliga D., Chang Y., Madej \u0141., Bzowski K., Perzy\u0144ski K., Haase Ch., Bleck W., Pietrzyk M., Correlating the microstructural heterogeneity with local formability of cold-rolled dual-phase and complex-phase steels through hardness gradients, Steel Research International 93(9), 1-13, 2022<\/li>\n<li>Madej \u0141., Legwand A., Setty M., Moj\u017ceszko M., Perzy\u0144ski K., Roskosz S., Chrapo\u0144ski J., Evaluation of capabilities of the nanoindentation test in the determination of flow stress characteristics of the matrix material in porous sinter, Archives of Civil and Mechanical Engineering 22(1), 1-10, 2022.<\/li>\n<li>Perzy\u0144ski K., Py\u017cy\u0144ski K. \u015awierczy\u0144ski S., Pidvysots\u2019kyy V., Klis J., M0adej \u0141., Influence of the roll leveler setup parameters on the quality of high\u2011strength steel leveling operation, International Journal of Advanced Manufacturing Technology 120(1, 1203\u20131217, 2022.<\/li>\n<li>Muszka K., Kwiecie\u0144 M., Perzy\u0144ski K., Majta J., Madej \u0141., Metal forming driven surface engineering of thin profile wires for high precision industrial filtration screens, CIRP Annals: Manufacturing Technology 72\/1, 265\u2013268, 2022<\/li>\n<li>Perzy\u0144ski K., Cios G., Szwachta G., Ba\u0142a P., Madej \u0141.,Numerical study on the dependency of microstructure morphologies of pulsed laser deposited TiN thin films and the strain heterogeneities during mechanical testing, Materials 14, 1-14, 2021<\/li>\n<li>M. Sitko, Q. Chao, J. Wang, K. Perzynski, K. Muszka, L. Madej, A parallel version of the cellular automata static recrystallization model dedicated for high performance computing platforms \u2013 Development and verification, Computational Materials Science 172, 109283, 2020.<\/li>\n<li>\u00a0L. Madej, L. Malinowski, K. Perzynski, M. Mojzeszko, J.C Wang, G. Cios, D. Czarnecki, P. Bala, Considering influence of microstructure morphology of epoxy\/glass composite on its behavior under deformation conditions\u2014digital material representation case study, Archives of Civil and Mechanical Engineering 19, 1\u201312, 2019.<\/li>\n<li>Perzy\u0144ski K., Cios G., Szwachta G., Zych D., Setty M., Ba\u0142a P., Madej \u0141., Numerical Modelling Of A Compression Test Based On The 3D Digital Material Representation Of Pulsed Laser Deposited Tin Thin Films,\u00a0Thin Solid Films\u00a0673, 34\u201343, 2019.<\/li>\n<li>Perzy\u0144ski K., Wang J., Radwa\u0144ski K., Muszka K., Madej L., Identification of critical strains for the random cellular automata finite element failure model based on in-situ tensile test, Mechanics of Materials 133<span class=\"sep\">,\u00a0<\/span>154\u2013164, <span class=\"sep\">2<\/span>019.<\/li>\n<li>Madej \u0141.,Perzy\u0144ski K., Sk\u0142adzie\u0144 M., Tkocz M., Rosiak M., Grosman F., Application of the GTN model to numerical simulation of Distaloy AB sinters behaviour under complex loading conditions,<span class=\"sep\">\u00a0<\/span>Archives of Metallurgy and Materials 63 (4),\u00a01937\u20131942, 2018.<span class=\"sep\">\u00a0<\/span><\/li>\n<li>Madej L, Sitko M., Legwand A., Perzynski K., Michalik K., Development and evaluation of data transfer protocols in the fully coupled random cellular automata finite element model of dynamic recrystallization, Journal of Computational Science 26, 66\u201377, 2018.<\/li>\n<li>Perzy\u0144ski K., Madej L., Complex hybrid numerical model in application to failure modelling in multiphase materials, Archives of Computational Methods in Engineering 24, 869-890, 2017.<\/li>\n<li>Perzynski K., Ososkov Y., Wilkinson D.S., Jain M., Wang J., Madej L., Validation of the dual-phase steel failure model at the microscale, International Journal for Multiscale Computational Engineering 15,\u00a0443\u2013458, 2017.<\/li>\n<li>Perzy\u0144ski K., Wro\u017cyna A., Kuziak R.,\u00a0Legwand A., Madej \u0141., Development and validation of multi scale failure model for dual phase steels, Finite Elements in Analysis and Design 124, 7-21, 2017.<\/li>\n<li>Majta J., Perzynski K., Muszka K., Graca P., Madej L., Modeling of grain refinement and mechanical response of microalloyed steel wires severely deformed by combined forming process, International Journal of Advanced Manufacturing Technology 89,\u00a01559\u20131574 , 2017,<\/li>\n<li>Perzynski K., Madej L., Fracture modeling in dual phase steel grades based on the random cellular automata finite element approach Simulation: Transactions of the Society for Modeling and Simulation International, Special Issue: Simulation with Cellular Automata 92(2), 195\u2013207, 2016.<\/li>\n<li>Legwand A., Sitko M., Perzy\u0144ski K., Madej \u0141., RCAFE Based Numerical Model of Dynamic Recrystallization,\u00a0<span class=\"sep\">\u00a0<\/span>Journal of Machine Engineering 16(2),\u00a052\u201360, 2016.<\/li>\n<li>Majta J., Madej \u0141.,\u00a0Svyetlichnyy D. S., Perzy\u0144ski K., Kwiecie\u0144 M., Muszka K., Modeling of the inhomogeneity of grain refinement during combined metal forming process by finite element and cellular automata methods, \u00a0Materials Science and Engineering\u00a0A 671, 204\u2013213, 2015.<\/li>\n<li>Madej \u0141., Kuziak R., Mroczkowski M., Perzy\u0144ski K., Libura W., Pietrzyk M., Development of the multi-scale model of cold rolling based on physical and numerical investigation of ferritic-pearlitic steels, Archives of Civil and Mechanical Engineering, 15(4), 885\u2013896 2015.<\/li>\n<li>Perzy\u0144ski K., Wiatr R., Madej L., Numerical model of the nanoindentation test based on the digital material representation of the Ti\/TiN multilayers, Materials Science\u2013Poland, 33(2), 348\u2013355, 2015.<\/li>\n<li>Madej L., Wang J., Perzynski K., Hodgson, P.D., Numerical modeling of dual phase microstructure behavior under deformation conditions on the basis of digital material representation, Computational Materials Science, 95, 651\u2013662, 2014.<\/li>\n<li>Perzy\u0144ski K., Madej L., Wang J., Kuziak R., Hodgson P. D., Numerical investigation of influence of the martensite volume fraction on DP steels fracture behavior on the basis of digital material representation model, Metallurgical and Materials Transactions A, 45, 5852\u20135865, 2014.<\/li>\n<li>Kruzel F., Madej L., Perzy\u0144ski K., Banas K., Development of three dimensional adaptive mesh generation for multiscale applications, International Journal for Multiscale Computational Engineering, 12(3), 257\u2013269, 2014.<\/li>\n<li>Perzy\u0144ski K., Madej L., Numerical modeling of fracture during nanoindentation of the TiN coatings obtained with the PLD process, Bulletin of the Polish Academy of Science, 61(4), 973\u2013978, 2013.<\/li>\n<li>Madej L., Sieradzki L., Sitko M., Perzy\u0144ski K., Radwa\u0144ski K., Kuziak R., Multi scale cellular automata and finite element based model for cold deformation and annealing of a ferritic pearlitic microstructure, Computational Materials Science, 77, 172\u2013181, 2013. (IF=879)<\/li>\n<li>Perzy\u0144ski, K., Madej, \u0141., Numerical analysis of influence of the martensite volume fraction on DP steels behavior during plastic deformation, Archives of Metallurgy and Materials 58(1), 211\u2013215, 2013.<\/li>\n<li>Perzy\u0144ski K., Madej \u0141., Szajding A., Raga K., Kubiak K., Niechajowicz A., Jaskiewicz K., Gronostajski Z., Pietrzyk M.,\u00a0 Numerical Evaluation Of Gear Ring Behavior During Various Cooling Conditions, Journal Of Machine Engineering 16(2),\u00a018\u201326, 2016.<\/li>\n<li>Szyndler J., Perzy\u0144ski K., Madej \u0141., Modelling of material flow during incremental forming process on the basis of digital material representation concept, Journal of Machine Engineering 15(1), 81\u201389, 2015.<\/li>\n<li>Perzy\u0144ski K., Sitko M., Madej \u0141., Numerical modelling of fracture based on coupled cellular automata finite element approach, Cellular automata\u00a0:\u00a011th international conference on Cellular Automata for Research and Industry, ACRI\u00a02014 : Krakow, Poland, September 22\u201325, 2014 : proceedings, 164 \u2013165, 2014.<\/li>\n<\/ol>\n<p>PUBLICATION IN OTHER JOURNALS<\/p>\n<ol>\n<li>Legwand A., Perzy\u0144ski K., Madej L.,\u00a0\u00a0Optimization of ultralight aircraft landing gear by the finite element numerical tool,\u00a0<em>Modelowanie In\u017cynierskie<\/em>\u00a028(59), 40-46, 2016.<\/li>\n<li>Rauch \u0141., Bzowski K., Perzy\u0144ski K., Madej \u0141., Milenin A., Pietrzyk M., Strategy for the selection of the best phase transformation model for simulation of metals processing,\u00a0Computer Methods in Materials Science\u00a016(4), 224\u2013237, 2016.<\/li>\n<li>Szyndler J., Perzy\u0144ski K., Madej \u0141., Numerical analysis of data transfer quality in the 3D multi-scale uncoupled concurrent model connected with DMR,\u00a0Computer Methods in Materials Science,\u00a016(2)<span class=\"sep\">,<\/span>\u00a097\u2013103, 2016.<\/li>\n<li>Graca P., Muszka K., Majta J., Perzy\u0144ski K., Digital Image Correlation (DIC) system as a verification tool for constitutive models of deformation with complex strain path changes,\u00a0Computer Methods in Materials Science\u00a016(1), 47\u201353, 2016.<\/li>\n<li>Madej L., Perzynski K.,\u00a0Numerical model of fracture in dual phase steels,\u00a0Hutnik, Wiadomo\u015bci Hutnicze 83(4), 141-146, 2016.<\/li>\n<li>Sitko M., Madej \u0141., Perzy\u0144ski K., Kwiaton N., Kuziak R., Radwa\u0144ski K., Numerical investigation of the static recrystallization inhomogeneities across the plate thickness during continuous annealing,\u00a0Computer Methods in Materials\u00a015(3), 371\u2013379, 2015.<\/li>\n<li>Perzy\u0144ski, K., Madej, \u0141., Rozw\u00f3j wieloskalowych metod obliczeniowych w zastosowaniu do modelowania proces\u00f3w odkszta\u0142cenia plastycznego, Multiscale computational techniques in application to metalforming, Hutnik, 80(4), 242\u2013247, 2013<\/li>\n<li>Madej L., Kru\u017cel F., Cybu\u0142ka P., Perzy\u0144ski K., Bana\u015b K., Generation of dedicated finite element meshes for multiscale applications with Delaunay triangulation and adaptive finite element \u2013 cellular automata algorithms \u2014 Opracowanie algorytm\u00f3w do tworzenia siatek element\u00f3w sko\u0144czonych na bazie triangulacji Delaunaya i adaptacyjnej metody element\u00f3w sko\u0144czonych skorelowanej z metod\u0105 automat\u00f3w kom\u00f3rkowych, Computer Methods in Materials Science, 12(2), 85\u201396, 2012<\/li>\n<li>Legwand A., Perzy\u0144ski K., Optymalizacja kszta\u0142tu podwozi samolot\u00f3w ultralekkich z wykorzystaniem nowych mo\u017cliwo\u015bci aplikacji numerycznych, Zeszyty Studenckiego Towarzystwa Naukowego, 25, 181-187, 2012<\/li>\n<li>Perzy\u0144ski K., Madej \u0141., Numeryczna pr\u00f3ba nanoindentacji jako metoda badawcza bionanopow\u0142ok, Mechanik, 85(10), 880-884, 2012.<\/li>\n<li>Perzy\u0144ski K., Madej \u0141., Modelowanie procesu p\u0119kania stali DP z wykorzystaniem cyfrowej reprezentacji materia\u0142u, Hutnik, 79(8), 641-643, 2012.<\/li>\n<li>Szeliga D., Perzy\u0144ski K., Macio\u0142 P., Myczkowska K., Ro\u0144da J., Identyfikacja parametr\u00f3w cieplnych stanowiska spawalniczego, Hutnik, 78(4), 332\u2013336, 2011.<\/li>\n<li>Ku\u017aniar A., Rygiel P., Dudek P., Gnot A., Gancarczyk T., Perzy\u0144ski K., Numerical model of a TIG welding process for the aviation industry, including analysis of the heat transfer, Computer Methods in Materials Science, 11(1), 173\u2013178, 2012.<\/li>\n<li>Madej \u0141., Cybu\u0142ka P., Perzy\u0144ski K., Rauch \u0141., Numerical analysis of strain inhomogeneities during deformation on the basis of the three dimensional digital material representation, Computer Methods in Materials Science, 11(2), 375\u2013380, 2011.<\/li>\n<li>Perzy\u0144ski K., Rauch \u0141., Szeliga D., Ro\u0144da J., Pietrzyk M., The Computer System For Design Of The Tig Welding Operation, Journal Of Machine Engineering, 10(3), 60\u201367, 2010.<\/li>\n<li>Perzy\u0144ski K., Major \u0141., Kopernik M., Madej \u0141., Pietrzyk M., Analysis of the stress distribution in the nanogrid coatings based on digital representation of the structure, In\u017cynieria Materia\u0142owa, 31(3), 735\u2013738, 2010.<\/li>\n<li>Perzy\u0144ski K., Madej L., Pietrzyk M., Proces wyoblania, jako przyk\u0142ad deformacji przyrostowej, Mechanik 10, 2009.<\/li>\n<li>Perzy\u0144ski K., Madej L., Muszka K., Pietrzyk M., Wykorzystanie Modeli Odkszta\u0142ce\u0144 Cyklicznych do Symulacji Proces\u00f3w Plastycznej Przer\u00f3bki FiMM 2009: fizyczne i matematyczne modelowanie proces\u00f3w obr\u00f3bki plastyczne, 226, 97-102, 2009.<\/li>\n<li>Perzy\u0144ski K., Madej \u0141., Muszka K., Pietrzyk M., Numerical investigation of the Bauschinger effect during the low reversal cyclic torsion, three point bending and tension\/compression tests, The Annals of \u201dDunarea de Jos\u201d University Galati, 27, 107\u2013112, 2009.<\/li>\n<li>Muszka K., Perzy\u0144ski K., Madej \u0141., The cyclic plasticity hardening law in application to metal forming, Computer Methods in Materials Science, 8(4), 165-175, 2008.<\/li>\n<\/ol>\n<p>PUBLICATION IN INTERNATIONAL CONFERENCE PROCEEDINGS<br \/>\n1. Perzy\u0144ski K., Sitko M., Madej \u0141., umerical modelling of fracture based on coupled cellular automata finite element approach, Cellular automata : 11th international conference on Cellular Automata for Research and Industry, ACRI 2014 : Krakow, Poland, September 22\u201325, 2014.<br \/>\n2. Numerical model of the nanoindentation test based on the digital material representation of the TiN\/Ti multilayers, KKNM 2014 : 4th national conference on Nano- and micromechanics, Wroc\u0142aw, 8-10th July 2014.<br \/>\n3. Bana\u015b K., Kru\u017cel F., Cybu\u0142ka P., Perzy\u0144ski K., Madej L., Adaptive mesh generation for multi scale applications, ECCOMAS 2012, September 10\u201314, 2012, Vienna, Austria, 168.<br \/>\n4. Madej \u0141. , Perzy\u0144ski K., Multi scale analysis of polycrystalline material behaviour under thermo-mechanical conditions on the basis of digital material representation, MMM 2012, October 15\u201319, 2012, Singapore.<br \/>\n5. Madej \u0141. , Perzy\u0144ski K. , Wajda W. , Paul H. , Cybu\u0142ka P. , Rauch \u0141., Numerical analysis of the texture evolution on the basis of the CPFE and digital material representation, ICTP 2011: 10th International Conference on Technology of Plasticity, 25\u201330 September 2011, Aachen, Germany.<br \/>\n6. Muszka K., Madej L., Perzy\u0144ski K., \u015aleboda T., Pietrzyk M. , The combined hardening rule in application to the numerical modeling of material behavior under cyclic loading, 37th SolMech 2010, 6\u201310 September 2010, Warszawa, Poland.<br \/>\n7. Rauch \u0141., Madej \u0141., Perzy\u0144ski K., Numerical Simulations Of The Microscale Material Phenomena Based On Cellular Automata Framework And Workflow Idea, 17th ISPE International Conference On Concurrent Engineering, 6\u201310 September 2010, Cracow, Poland.<br \/>\n8. Madej \u0141., Spytkowski P., Perzy\u0144ski K., Pietrzyk M., Multiscale numerical simulation of the phase transformation during industrial cooling, ECCM 2010, IV European Conference on Computational Mechanics : solids, structures and coupled problems in engineering, 16\u201321 May 2010, France.<br \/>\n9. Madej \u0141., W\u0119glarczyk P., Perzy\u0144ski K., Pietrzyk M., Modeling of manufacturing chain supported by the multiscale analysis with digital material representation, WCCM\/APCOM 2010: 19\u201323 July 2010, Sydney, Australia.<br \/>\n10. Perzy\u0144ski K., Major \u0141., Kopernik M., Madej \u0141., Pietrzyk M., Analiza lokalizacji napr\u0119\u017ce\u0144 w pow\u0142okach nanogridowych z wykorzystaniem cyfrowej reprezentacji struktury, PLASTMET 2010, 30 November \u2013 3 December 2010, \u0141a\u0144cut\u2013Zamek, Poland.<br \/>\n11. Perzy\u0144ski K., Madej \u0141., Muszka K., Pietrzyk M., Numerical investigation of the Bauschinger effect during the low reversal cyclic torsion test, CMM 2009, 18\u201321 May 2009, Zielona G\u00f3ra, Poland.<br \/>\n12. Madej \u0141., Cybulka G., Perzy\u0144ski K., Rauch \u0141., Pietrzyk M., Multi scale modeling based on digital material representation, Computational plasticity X, 2\u20134 September 2009, Barcelona, Spain.<\/p>\n<p>PUBLICATION IN NATIONAL CONFERENCE PROCEEDINGS<br \/>\n1. Legwand A., Perzy\u0144ski K., Madej \u0141., Pietrzyk M., Approach for an automatic optimisation of production chain as a tool for intelligent manufacturing in metal forming \u2014 Wykorzystanie metod optymalizacji w zagadnieniach komputerowego wspomagania projektowania proces\u00f3w przer\u00f3bki plastycznej, KomPlasTech 2014 : informatyka w technologii metali : Wis\u0142a Malinka, 19\u201322 stycznia 2014.<br \/>\n2. Kuziak R., Radwa\u0144ski K., Perzy\u0144ski K., Madej \u0141., Pietrzyk M., Validation of material models for bainitic steels used in optimization of manufacturing chain for fasteners \u2014 Stale bainityczne jako alternatywa dla konwencjonalnych stali w\u0119glowo-manganowych w wytwarzaniu element\u00f3w z\u0142\u0105cznych \u2013 symulacja cyklu produkcji, KomPlasTech 2014 : informatyka w technologii metali : Wis\u0142a Malinka, 19\u201322 stycznia 2014.<br \/>\n3. Perzy\u0144ski K., Madej L., Analiza numeryczna wp\u0142ywu u\u0142amka obj\u0119to\u015bci martenzytu na zachowanie stali DP podczas odkszta\u0142cenia plastycznego, Numerical analysis influence of martensite volume fraction on behavior of DP steels during plastic deformation, PLASTMET 2012, 20\u201323 listopada 2012, \u0141a\u0144cut.<br \/>\n4. Madej \u0141., Perzy\u0144ski K., Model numeryczny procesu nanoindentacji metaliczno-ceramicznych nanopow\u0142ok, III Krajowa konferencja nano i mikromechaniki, 4\u20136 July, 2012, Warszawa, 95\u201396.<br \/>\n5. Wajda W., Paul H., Perzy\u0144ski K., Madej \u0141., Wp\u0142yw orientacji s\u0105siaduj\u0105cych krystalit\u00f3w na zmiany tekstury i zachowanie umocnieniowe w pobli\u017cu granicy ziaren, Metalurgia 2010, 20\u201323 October 2010, Krynica-Zdr\u00f3j, Poland.<br \/>\n6. Kozio\u0142 P., Perzy\u0144ski K., Madej \u0141., Modelowanie propagacji p\u0119kni\u0119\u0107 w oparciu o metod\u0119 automat\u00f3w kom\u00f3rkowych , KomPlasTech 2010 informatyka w technologii metali, 10\u201313 January 2010, Bia\u0142ka Tatrza\u0144ska, Poland.<br \/>\n7. Perzy\u0144ski K., Pietrzyk M., Analiza numeryczna procesu formowania na zimno rur miedzianych do przesy\u0142ania energii elektrycznej, PLASTMET 2008, 25-28 November 2008, \u0141a\u0144cut\u2013Zamek, Poland.<br \/>\nUNPUBLISHED PRESENTATIONS<br \/>\n1. Presentation \u201eMultiscale modeling applied to simulate cracking multiphase materials\u201d, Department of Technology and Education, Koszalin University of Technology, september 2015.<br \/>\n2. Presentation ,,Editor of mathematical formulas for e-learning platform Moodle&#8221; presented at the conference, Pingwinaria 2007 Krynica-Zdr\u00f3j.<\/p>\n<p>OTHERS<br \/>\n1. Perzy\u0144ski K., The hybrid model CAFE applied to simulate the fracture of layered materials, Doctus: Malopolska fund scholarships for doctoral 2009-2012, Malopolska Center for Entrepreneurship, Krak\u00f3w 2012.<br \/>\nPARTICIPATION IN CONFERENCES<br \/>\n17\u201320.11.2015 K. Perzy\u0144ski, M. Sitko, K. Muszka, \u0141. Madej, CAFE concurrent model for modeling static recrystallization during multistage hot rolling, OMIS 2015, \u0141a\u0144cut.<br \/>\n17-20.11.2015 K. Perzy\u0144ski, \u0141. Madej, A. Szajding, K. Raga, K. Kubiak, M. Pietrzyk, To develop and validate numerical model of cooling rings used in aerospace industry, OMIS 2015, \u0141a\u0144cut.<br \/>\n8-11.09.2015 K. Perzy\u0144ski, \u0141. Madej, 2015, Numerical model for brittle-ductile fracture analysis in DP steel., CMM2015, Gda\u0144sk.<br \/>\n11-14.01.2015 K. Perzy\u0144ski, A. Wro\u017cyna, \u0141. Madej, R. Kuziak, Modelling of brittle and ductile failure in DP steels, Komplastech 2015, Krynica Zdr\u00f3j.<br \/>\n11-14.01.2015 L. Madej, K. Perzy\u0144ski, H. Paul, Numerical modelling of explosive welding with using Coupled Eulerian Lagrangian and Multiple Level Refinement approaches., Komplastech 2015, Krynica Zdr\u00f3j.<br \/>\n22\u201325.09.2014 K. Perzy\u0144ski, M. Sitko, \u0141. Madej, 2014, Numerical modelling of fracture based on coupled cellular automata finite element approach, ACRI 2014, Krak\u00f3w.<br \/>\n19\u201322.01.2014 A. Legwand, K. Perzy\u0144ski, \u0141. Madej, M. Pietrzyk, 2014, The use of optimization techniques in computer-aided design issues forming processes, Komplastech 2014, Wis\u0142a.<br \/>\n26\u201329.11.2013 Perzy\u0144ski K., Madej L., 2013, Numerical modeling mechanism of cracking in steels DP including the impact of microstructure morphology, OMIS 2013, \u0141a\u0144cut.<br \/>\n27-31.10.2013 Perzy\u0144ski K., Madej L., Wang J., Kuziak R., Hodgson P.D., 2013, Numerical investigation of influence of the martensite volume fraction on DP steels fracture behavior on the basis of digital material representation model, MS&amp;T 2013, Montreal.<br \/>\n18.04.2013 A. Legwand, K. Perzy\u0144ski, \u0141. Madej, M. Pietrzyk, 2013, Development of computer support system for optimizing production cycles in metal forming of metals, Neuromet 2013, Krak\u00f3w.<br \/>\n14\u201316.03.2012 Perzy\u0144ski K., Madej \u0141., 2012, Crack investigation of the multilayer TiN\/Ti coatings during the nanoindentation test,: 1293\u20131298 \u2013 ESAFORM 2012, Erlangen.<br \/>\n5\u20138.09.2012 Perzy\u0144ski K., Madej L., 2012, Multiscale numerical model for brittle &#8211; ductile crack investigation in DP steel, Forming, Zakopane.<br \/>\n4\u20136.07.2012 Perzy\u0144ski K., Madej \u0141., 2012, Numerical model of nanoindentation test for multilayer metallic-ceramic coatings, III National Conference of Nano and Micromechanics, Warsaw.<br \/>\n16\u201319.01.2011 Ku\u017aniar A., Rygiel P., Dudek S., Gnot A., Gancarczyk T., Perzy\u0144ski K., 2011, Numerical model of a TIG welding process for the aviation industry, including analysis of the heat transfer, Komplastech 2011, Zakopane.<br \/>\n14\u201317.03.2011 Perzy\u0144ski K., Rauch \u0141., Szeliga D., Ro\u0144da J., Pietrzyk M., 2010, The computer system for design of the TIG welding operation, XXII Conference &#8222;Model Based Manufacturing\u201d 2011, Karpacz.<br \/>\n30.11\u20133.12.2010 Perzy\u0144ski K., Major \u0141., Kopernik M., Madej \u0141., Pietrzyk M., 2010, Location analysis of stresses in nanocoatings using a digital representation of a nanogrids materials, PLASTMET 2010, \u0141a\u0144cut.<br \/>\n10\u201313.01.2010\u00a0Kozio\u0142 P., Perzy\u0144ski K., Madej \u0141., 2010, Modeling of crack propagation based on the method of cellular automata, KomPlasTech 2010, Bia\u0142ka-Tatrza\u0144ska.<br \/>\n23\u201325.09.2009\u00a0Perzy\u0144ski K., Madej L., Muszka K., Pietrzyk M., 2009, Numerical investigation of the Bauschinger effect during the low reversal cyclic torsion, three point bending and tension\/compression tests, NewTech 2009, Galati.<br \/>\n14\u201316.05.2009\u00a0Perzy\u0144ski K., Madej L., Muszka K., Pietrzyk M., 2009, The use of numerical models to simulate the cyclic forming processes, FiMM 2009, Jab\u0142onna.<br \/>\n25\u201328.11.2008\u00a0Perzy\u0144ski K., Pietrzyk M., 2008, Analiza numeryczna procesu formowania na zimno rur miedzianych do przesy\u0142ania energii elektrycznej, PLASTMET 2008, \u0141a\u0144cut.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>\u00a0 PUBLICATION IN JOURNALS WITH IMPACT FACTOR (THOMSON SCIENTIFIC) Perzy\u0144ski K., Cios G., Madej \u0141., Prediction of fracture evolution in the TiN\/Al thin films based on a full-field modelling approach, International Journal of Solids and Structures (in press). Perzy\u0144ski K., &hellip; <a href=\"https:\/\/home.agh.edu.pl\/~kperzyns\/?page_id=5\">Czytaj dalej <span class=\"meta-nav\">&rarr;<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"open","template":"","meta":{"footnotes":""},"class_list":["post-5","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/pages\/5"}],"collection":[{"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=5"}],"version-history":[{"count":88,"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/pages\/5\/revisions"}],"predecessor-version":[{"id":924,"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=\/wp\/v2\/pages\/5\/revisions\/924"}],"wp:attachment":[{"href":"https:\/\/home.agh.edu.pl\/~kperzyns\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=5"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}