Materials and additive manufacturing processes

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Description
The broad scope of the research group activity concerns the manufacturing and comprehensive research of the microstructure and properties of metal alloys and metal matrix composites. We mainly investigate materials processed by additive manufacturing, powder metallurgy, and metal forming
Research facilities:
Drukarka 3D
Atomizer ultradźwiękowy
Indukcyjny piec próżniowy
Termowaga, kalorymetr
Laboratories:
Laboratory for vacuum smelting, ultrasonic atomization and 3D printing of metallic materials
Laboratory for heat treatment and microstructural analysis
Laboratory for electrolytic deposition of coatings
Laboratory for metallographic specimen preparation
Projects:
Evolution of the microstructure during high temperature annealing and creep of the additively manufactured Ni-based superalloy IN625 (UMO-2017/27/B/ST8/02244)
Development of an innovative technology for the production of hybrid structures composed of composites based on a titanium alloy reinforced with particles obtained by powder metallurgy and titanium layers deposited by 3D printing, intended for lightweight structures (PPN/BDE/2020/1/00015/U/00001)
Accelerated nano-bainitic transformation in low-alloy steels processed by incremental forging (UMO-2020/02/Y/ST8/00107)
Effect of multiple scanning strategy in additive manufacturing by laser powder bed fusion on fatigue resistance of nickel-based superalloy Inconel 625 (2023/07/X/ST11/00226)
Research on the development of technologies for producing metallic powders using ultrasonic atomization technology for their use in additive technologies (DWD/5/0188/2021)
Theoretical and experimental identification of thermodynamic and kinetic barriers of the pig iron desulfurization process (DWD/5/0190/2021)
Determination of fatigue strength and analysis of fracture mechanisms of titanium matrix composites in-situ reinforced during hot pressing of elemental powders for highly responsible aircraft structures (BPN/BDE/2022/1/00009/U/00001)
Investigations of the possibility of producing metallic syntactic foams by powder metallurgy (2022/06/X/ST5/01161)
Analysis of phenomena accompanying the solidification of peritectic systems using modern thermo-optical methods - research internship (2019/03/X/ST5/00633)
Cooperation:
TU Bergakademie Freiberg (Germany)
TU Dresden (Germany)
Technical University of Denmark (DTU)
Swiss Federal Laboratories for Materials Science and Technology
Silesian University of Technology
Rzeszow University of Technology
University of Silesia
Jagiellonian University

Contact

Materials and additive manufacturing processes
ul. Czarnowiejska 66, budynek B5, pok. 507
12 617 29 28

Leading unit

Faculty of Metals Engineering and Industrial Computer Science -

Team leader

Dubiel Beata

Team members

  • Falkus Jan
  • Wojtaszek Marek
  • Drożdż Paweł
  • Kargul Tomasz
  • Ledwig Piotr
  • Nikiel Piotr
  • Pasiowiec Hubert
  • Zyguła Krystian
  • Podolska Angelika
  • Skonieczna Wiktoria

IDUB research areas

  • Technical solutions: from fundamental research, through modelling and design, to prototypes. The application of mathematical, information technology, and electronics tools to macro-, micro-, and nanoscale problems
  • Design, production, and testing of modern materials and the technologies of the future based on a multidisciplinary approach combining materials engineering with chemistry, physics, mathematics, and medicine

Keywords

additive manufacturinglaser powder bed fusionpowder metallurgyultrasonic atomization of metal powdersvacuum induction smeltingelectrolytic depositionmetal formingmicrostructure characterizationthermogravimetric analysisfuzzy logicmulti-stage forgingisothermal extrusionmodelingneural networksparameters of thermomechanical processing