Witold Węglewski, Dr

Research area:

  • Experimental measurement and numerical modelling of thermal residual stress in metal-ceramic composites
  • Microstructure imaging by computed micro-CT and generation of FE meshes using micro-CT scans
  • Theoretical and numerical modelling of composites fracture with account of thermal residual stress
  • Measurements of fracture parameters and other mechanical properties of metal-ceramic composites
  • Processing of metal-matrix composites by powder metallurgy techniques (HP, SPS)
  • Numerical and analytical modelling of sulfate corrosion of concrete-like materials 

 

Other information

Research stays abroad:
  • Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM, Dresden, Germany, 2 months stay (2011)
  • Materials Center Leoben Forschung GmbH, MCL, Leoben, Austria, 1 month (2013)
 
Ph.D Thesis: Modelling of damage in cementitious composites under sulphate attack
 

Contact:

telephone: (+48) 22 826 12 81 ext.: 437
room: 146
 
Main publications:
 
  Article title Authors Journal
1.
 Experimental Evaluation and Phase-Field Model of Fracture Behavior of Alumina-Aluminium Graded Composite
H. Darban, K. Bochenek, W. Węglewski, M. Basista (2024)
Advanced Structured Materials pp. 147-166
2. Thermal conductivity analysis of porous NiAl materials manufactured by spark plasma sintering: Experimental studies and modelling S. Nosewicz, G. Jurczak, S.H. Ibrahim, A. Grabias, W. Węglewski, K. Kaszyca, J. Rojek, M. Chmielewski (2022) International Journal of Heat and Mass Transfer, 194, 12370
3. Experimental determination of the length scale parameter for the phase-field modeling of macroscale fracture in Cr-Al2O3 composites fabricated by powder metallurgy H. Darban, K. Bochenek, W. Węglewski, M. Basista (2022) Metallurgical and Materials Transactions A, 53, 2300-2322
4. Microstructure, mechanical and wear properties of NiCr-Re-
Al2O3 coatings deposited by HVOF, atmospheric plasma
spraying, and laser cladding		 K. Bochenek, W. Węglewski, A. Strojny-Nędza, K. Pietrzak, T. Chmielewski, M. Chmeielwski, M. Basista (2022) Journal of Thermal Spray Technology (Available online)
5. Thermal conductivity of Cu-matrix composites reinforced with coated SiC particles: Numerical modeling and experimental verification W. Węglewski, P. Pitchai, M. Chmeielwski, P. J. Guruprasad, M. Basista (2022) International Journal of Heat and Mass Transfer, 188122633-1-18
6. A comparative study of mechanical properties, thermal conductivity, residual stresses and wear resistance of aluminum-alumina composites obtained by squeeze casting and powder metallurgy J. Maj, W. Węglewski, K. Bochenek, Ł. Rogal, S. Woźniacka, M. Basista (2021) Metallurgical and Materials Transactions A, 52, 4727-4736
7. Enhancement of fracture toughness of hot-pressed NiAl-Re material by aluminum oxide addition K. Bochenek, W. Węglewski, J. Morgiel, M. Maj, M. Basista (2020) Materials Science & Engineering A, 720, 139670
8. Experimental and Numerical Investigation of the Deformation and Fracture Mode of Microcantilever Beams Made of Cr(Re)/Al2O3 Metal–Matrix Composite  W. Węglewski, P. Pitchai, K. Bochenek, G. Bolzon, R. Konetschnik, B. Sartory, R. Ebner, D. Kiener, M. Basista (2020) Metallurgical and Materials Transactions A, 51(5), 2377-2390
9. Anomalous size effect in thermal residual stresses in pressure sintered alumina-chromium composites  W. Węglewski, M. Krajewski, K. Bochenek, P. Denis J. Wysmołek, M. Basista (2019) Materials Science & Engineering A, 762, 138111
10. Optical measurements of thermal residual stresses in alumina reinforced with chromium M. Krajewski, W. Węglewski, K. Bochenek, J. Wysmołek, M. Basista (2019) Journal of Applied Physics, 125, 135104
11. Influence of rhenium addition on microstructure, mechanical properties and oxidation resistance of NiAl obtained by powder metallurgy K. Bochenek, W. Węglewski, J. Morgiel, M. Basista (2018) Materials Science & Engineering A, 735, 121-130
12. Effect of microstructure on mechanical properties and residual stresses in interpenetrating aluminum-alumina composites fabricated by squeeze casting J. Maj, M. Basista, W. Węglewski, K. Bochenek, A. Strojny-Nędza, K. Naplocha, T. Panzer, M. Tatarkova, F. Fiori (2018) Materials Science & Engineering A, 715, 154-162
13. Processing Induced Flaws in Aluminum–Alumina Interpenetrating Phase Composites M. Basista, J. Jakubowska, W. Węglewski (2017) Advanced Engineering Materials, 19(1700484), 1-14
14. Micro-CT Finite Element Analysis of Thermal Residual Stresses and Fracture in Metal-Ceramic Composites M. Basista, W. Węglewski, K. Bochenek, Z. Poniżnik, Z. Nowak (2017) Advanced Engineering Materials, 19(8), 1600725
15. Influence of material coating on the heat transfer in a layered Cu-SiC-Cu systems A.    Strojny-Nędza, K. Pietrzak, M. Teodorczyk, M. Basista, W. Węglewski, M. Chmielewski​ (2017) Archives of Metallurgy and Materials, 62,1311-1314
16. The Influence of Al2O3 Powder Morphology on the Properties of Cu-Al2O3 Composites Designed for Functionally Graded Materials (FGM) A. Strojny-Nędza, K. Pietrzak, W. Węglewski (2016) Journal of Materials Engineering and Performance, ISSN:1059-9495, pp. 1-12
17. Rhenium doped chromium-alumina composites for high-temperature applications M. Chmielewski, K. Pietrzak, M. Basista, W. Węglewski (2016) Int. Journal of Refracotry Metals and Hard Materials, 54, pp.196-202
18.

The Influence of Electrocorundum Granulation on the Properties of Sintered Cu/Electrocorundum Composites

 A. Strojny-Nędza, K. Pietrzak, W. Węglewski (2015) Science of sintering, 47, pp.249-258
19. Effect of grain size on thermal residual stresses and damage in sintered chromium–alumina composites: Measurement and modeling W. Węglewski, M. Basista, A. Manescu, M. Chmielewski, K. Pietrzak, Th. Schubert (2014) Composites Part B, 67, pp.119-124
20. Kompozyty spiekane Cr-Al2O3 z dodatkiem renu: wytwarzanie, właściwości, modelowanie, zastosowania M. Basista, K. Pietrzak, W. Węglewski, M. Chmielewski (2013) Rudy i Metale Nieżelazne, R58, No.10, pp.556-563
21. Comparison of experimental and modelling results of thermal properties in Cu-AlN composite materials M. Chmielewski, W. Węglewski (2013) Bulletin of the Polish Academy of Sciences: Technical Sciences,  61, Issue 2, pp.507–514, ISSN (Print) 0239-7528
22. Comparative assessment of Young’s modulus measurements of metal-ceramic composites using mechanical and non-destructive tests and micro-CT based computational modeling W. Węglewski, K. Bochenek, M. Basista, Th. Schubert, U. Jehring J. Litniewski, S. Mackiewicz (2013) Computational Material Sciences, 77, pp.19-30
23. Modeling of thermally induced damage in the processing of Cr-Al2O3 composites W. Węglewski, M. Basista, M. Chmielewski, K. Pietrzak (2012) Composites Part B43, 255-264
24. Thermal residual stresses generated during processing of Cr/ Al2O3 composites and their influence on macroscopic elastic properties W. Węglewski, M. Chmielewski, D. Kaliński, K. Pietrzak, M. Basista (2010) Advances in Science and Technology, 65, pp. 27-32
25. Chemically assisted Damage of Concrete: a model of expansion under external sulfate attack M. Basista, W. Węglewski (2009) International Journal of Damage Mechanics, 18, No. 2, pp. 155-175
26. Micromechanical modelling of sulphate corrosion in concrete: Influence of ettringite forming reaction M. Basista, W. Węglewski (2008) Theoretical and Applied Mechanics,  35, pp. 29-52
27. Modelling of Damage and Fracture in Ceramic Matrix Composites: An overview M. Basista, W. Węglewski (2006) Journal of Theoretical and Applied Mechanics, 44, pp. 455-484