Offer for the Industry

Division of Biomaterials

Research offer

  • Assessment of the bio-compatibility of materials (Beata Świeczko-Żurek, PhD, Eng. beazurek@pg.edu.pl)
  • Assessment of the determinants and mechanisms of construction, assessment of the properties and texture of concise and porous structures obtained with additive method (3D printing) (Tomasz Seramak, PhD, Eng. tseramak@pg.edu.pl)
  • Assessment of the causes of the degradation of materials in industry and transportation, (Professor Andrzej Zieliński, PhD, Eng.  azielins@pg.edu.pl)
  • Assessment of the metal corrosion velocity (Agnieszka Ossowska, PhD, Eng. - agnieszka.ossowska@pg.edu.pl; Michał Bartmański, MSc michal.bartmanski@pg.edu.pl)
  • Application technologies and the properties of layers and coatings on metal materials (Agnieszka Ossowska, PhD, Eng.  agnieszka.ossowska@pg.edu.pl; Magdalena Jażdżewska, PhD, Eng. magjazdz@pg.edu.pl; Michał Bartmański, MSc, michal.bartmanski@pg.edu.pl)

Design offer:

  • Design and production of composite and multiplex surface layers on aluminum and magnesium alloys (Waldemar Serbiński, PhD, Eng. wserbins@pg.edu.pl )
  • Production of various metal elements using additive method employing laser melting of powdered titanium and its alloys and stainless steel (Tomasz Seramak, PhD, Eng. tseramak@pg.edu.pl )
  • Production of highly corrosion and abrasive wear resistant layers on the surface of metal alloys using laser melting method in cryogenic conditions (Beata Majkowska-Marzec, PhD, Eng. beamajko@pg.edu.pl )
  • Production of chitosan coatings on titanium and its alloys (Professor Andrzej Zieliński, PhD, Eng. (Professor Andrzej Zieliński, PhD, Eng., azielins@pg.edu.pl)
  • Production of hydroxyapatite and nanohydroxyapatite layers with and without nanometal additives (Beata Świeczko-Żurek, PhD, Eng., beazurek@pg.edu.pl; Magdalena Jażdżewska, PhD, Eng., magjazdz@pg.edu.pl; Michał Bartmański, MSc, michal.bartmanski@pg.edu.pl)
  • Production of oxide layers of designed corrosion resistance and bioactivity on titanium and its alloys (Agnieszka Ossowska, PhD, Eng., agnieszka.ossowska@pg.edu.pl; Michał Bartmański, MSc, michal.bartmanski@pg.edu.pl)

Training Offer:

  • Materials degradation (Professor Andrzej Zieliński, PhD, Eng., azielins@pg.edu.pl)
  • Laser machining of metals (Beata Majkowska-Marzec PhD, Eng., beamajko@pg.edu.pl; Magdalena Jażdżewska, PhD, Eng., magjazdz@pg.edu.pl)
  • Design and production of tribological wear and corrosion resistant compound surface layers on aluminum and magnesium alloys (Waldemar Serbiński, PhD, Eng., wserbins@pg.edu.pl)
  • Production of elements using the powder metallurgy and rapid prototyping methods (Tomasz Seramak, PhD, Eng., tseramak@pg.edu.pl)
  • Production of layers and coatings (Agnieszka Ossowska, PhD, Eng., agnieszka.ossowska@pg.edu.pl; Magdalena Jażdżewska, PhD, Eng.,  magjazdz@pg.edu.pl; Michał Bartmański MSc, michal.bartmanski@pg.edu.pl)

Expert opinion offer:

Division of Bonding Engineering

Research offer

  • Testing the weldability of steel in underwater conditions (G. Rogalski, PhD, Eng. grzrogal@pg.edu.pl)
  • Testing the environmental destruction of metal and welded joints –  (J. Łabanowski, PhD, Eng.  jlabanow@pg.edu.pl)
  • Corrosion testing of metal and welded joints (A. Świerczyńska, PhD, Eng. aleswier@pg.edu.pl)
  • Assessing the weldability of steel, (D. Fydrych, PhD, Eng., darfydry@pg.edu.pl)
  • Testing the influence of hydrogen on mechanical properties of welded joints (D. Fydrych, PhD, Eng., darfydry@pg.edu.pl)
  • Testing the processes and properties of explosive-welded joints (G. Rogalski, PhD, Eng., grzrogal@pg.edu.pl)
  • Theory of the thermal processes in welding (A. Marmołowski, PhD, amarmolo@pg.edu.pl)
  • Multidimensional analyses in welding and bonding technologies (A. Marmołowski, PhD, amarmolo@pg.edu.pl)
  • Empirical and analytical methods of determining the strains in the welded joints (W. Kiełczyński, PhD, Eng., wkielcz@pg.edu.pl)
  • Basic testing within the range of: theory of the thermal processes in welding, theory of welding strains and deformations, brittle and slow fractures, theoretical basis and technology of the explosive welding (W. Kiełczyński, PhD, Eng., wkielcz@pg.edu.pl)
  • Computer aided design of welding technology (A. Marmołowski, PhD,  amarmolo@pg.edu.pl)
  • NDT testing  RT, UT, VT, PT of welded constructions and castings (J. Haras, PhD, Eng., jacharas@pg.edu.pl)

Design offer:

  • Designing welding, soldering and fusion welding (D. Fydrych, PhD, Eng. Grzegorz Rogalski, PhD, Eng., A. Świerczyńska PhD, Eng.)
  • Automation and robotization of the welding processes (A. Marmołowski, PhD, amarmolo@pg.edu.pl)
  • Designing welded construction made of corrosion resistant steel (PhD, Eng., J. Łabanowski, jlabanow@pg.edu.pl)
  • Design and production of the fibrous composites with polymer matrix, modified with nanoparticles (M. Landowski, PhD, Eng., miclando@pg.edu.pl)
  • Design and production of the surface layers of increased resistance to the water environment activity (including the nanoparticle modifications) (M. Landowski, PhD, Eng.)

Training offer:

  • Post-graduate studies – International Welding Engineer IWE I, IWE II, IWE III Authorized Training Faculty of the International Welding Institute, Gdańsk University of Technology, Faculty of Mechanical Engineering, Division of Welding Engineering
  • Courses – International Welding Specialist
  • Training on underwater welding
  • Training on robotized welding
  • Training on welding methods
  • Training on the heat treatment
  • Training on NDT testing (J. Haras, PhD, Eng.  jacharas@pg.edu.pl)

Expert opinion offer:

  • Expert opinion on the damage of metal elements and welded constructions (J. Łabanowski,PhD, Eng., jlabanow@pg.edu.pl)
  • Assessment of the degradation degree of materials operating in high temperatures (J. Łabanowski,PhD, Eng., jlabanow@pg.edu.pl)
  • Material diagnostics using NDT – RT, UT, VT, PT methods (J. Haras, PhD, Eng., jacharas@pg.edu.pl)
  • Determination of the mechanical properties of the engineering material, in particular of welded joints (M. Landowski, PhD, Eng., miclando@pg.edu.pl)

Static strength testing

Hardness testing

Microscopic examination (using optical microscope) and macroscopic examination of the metallographic properties

Testing the resilience – also in lowered temperatures (-20 i -40°C)

Environmental ageing in climatic chamber (180°C / -40°C) with humidity adjustment option

  • Corrosive testing of metal and welded joints (A. Świerczyńska, PhD, Eng., aleswier@pg.edu.pl)

                      Testing the strain corrosion, SSRT method

                      Testing the strain corrosion, CL method

                               Testing pitting in compliance with ASTM G48A

  • Determining the amounts of the diffusing hydrogen in the weld using glycerin and mercury methods (D. Fydrych, PhD, Eng. darfydry@pg.edu.pl)
  • Testing the impact resistance using the drop weight tower INSTRON CEAST 9130 (M. Landowski, PhD, Eng., miclando@pg.edu.pl)
  • Determining the tendency to create cold cracking on the basis of self-consolidated and technological trials  and implants (G. Rogalski, PhD, Eng., grzrogal@pg.edu.pl)
  • Qualification of the welding technologies (D. Fydrych, PhD, Eng., darfydry@pg.edu.pl)
  • Qualification of the underwater welding technologies and certification of the diver welders in compliance with PN-EN ISO and AWS standards (G. Rogalski, PhD, Eng., grzrogal@pg.edu.pl )
  • Quality supervision during the construction of the welded structures, (G. Rogalski, PhD, Eng.,  grzrogal@pg.edu.pl)
  • Issuing experts’ opinions and consulting the design of the welding technologies for complex structures meeting the requirements of the EN ISO, ASME, AWS standards and technical specifications provided by the employer (G. Rogalski, PhD, Eng., grzrogal@pg.edu.pl)
  • Machine parts regeneration technologies (W. Kiełczyński, PhD, Eng., wkielcz@pg.edu.pl)

Division of Construction Materials

Research offer

  • Issues connected with the quality of the concreting the casing pipes of the exploratory and mining boreholes for carbohydrates (Bartłomiej Karpiński, MSc, Eng., bartłomiej.karpinski@pg.edu.pl)
  • Issues connected with the quality of drilling the exploratory and mining boreholes for carbohydrates (Łukasz Bolewski, MSc, Eng., lucbolew@pg.edu.pl)
  • Issues connected with the environmental degradation of the casing pipes in exploratory and mining boreholes for carbohydrates (Mateusz Kmieć, MSc, Eng., mateusz.kmiec@pg.edu.pl)
  • Issues connected with the degradation of metal materials under the cavitation loads ( Artur Sitko, PhD, Eng., artsitko@pg.edu.pl)
  • Issues connected with the usage of the laser beam to shape the properties of the top layers of metal and ceramic construction materials (Michał Antoszkiewicz, MSc, Eng., michal.antoszkiewicz@pg.edu.pl)
  • Issues connected with the usage of ceramic nanoparticles in designing composite materials with polymer matrix and using them as protective layers (Michał Antoszkiewicz, MSc, Eng., michal.antoszkiewicz@pg.edu.pl)
  • Issues connected with the optimization of the shape of human aortic bioprosthesis made of bionanocellulose (Kinga Dawidowska, MSc, Eng., kindawid@student.pg.edu.pl)
  • Issues connected with the determination of the influence of the manufacturing technology on the mechanical properties of bionanocellulose in the context of using it in cardiovascular surgery (Alicja Stanisławska, MSc, Eng.)

Design offer:

  • Design and production of the composite surface layers resistant to cavitation erosion (Michał Antoszkiewicz, MSc, Eng. michal.antoszkiewicz@pg.edu.pl)
  • Production of the high wear and corrosion resistant surface layers on metal alloys using laser treatment methods (Mateusz Kmieć, MSc, Eng., mateusz.kmiec@pg.edu.pl)
  • Designing tools improving the borehole geometry for borehole drilling (Łukasz Bolewski, MSc, Eng., lucbolew@pg.edu.pl)

Training offer:

  • Degradation of materials (Professor Marek Szkodo, PhD, Eng., mszkodo@pg.edu.pl)
  • Using Ansys, Inventor, Solid Works software packages (Łukasz Bolewski, MSc, Eng., lucbolew@pg.edu.pl)
  • Quality control in thermal and thermo-chemical treatment (Professor Marek Szkodo, PhD, Eng., mszkodo@pg.edu.pl)
  • Material science and materials engineering (Professor Marek Szkodo, PhD, Eng., mszkodo@pg.edu.pl)

Expert opinion offer:

  • Assessment of the causes of elements degradation in industry and transport (Krzysztof Krzysztofowicz, PhD, Eng., kkrzyszt@pg.edu.pl)
  • Materials diagnostics using CT scan methods (Bartłomiej Karpiński, MSc, Eng., bartłomiej.karpinski@pg.edu.pl)
  • Determination of the mechanical properties of the engineering materials
  • Static and dynamic strength testing (Łukasz Bolewski, MSc, Eng., lucbolew@pg.edu.pl)
  • Testing the hardness of materials in macro-, micro- and nanoscale (Michał Antoszkiewicz, MSc, Eng.,– michal.antoszkiewicz@pg.edu.pl)
  • Determination of the chemical composition of materials (Jan Stryjewski MSc, Eng.)
  • Testing the adhesiveness of the coatings (Michał Antoszkiewicz, michal.antoszkiewicz@pg.edu.pl)
  • Determination of the materials resistance to cavitation loads (Mateusz Kmieć, MSc, Eng., mateusz.kmiec@pg.edu.pl)
  • Determination of the materials wear course due to fretting in various environments (Michał Antoszkiewicz, MSc, Eng., michal.antoszkiewicz@pg.edu.pl)
  • Metallographic testing using optical and electron microscopes (Artur Sitko, PhD, Eng., artsitko@pg.edu.pl)
  • Thermogravitational testing and determination of the oxidation kinetics of materials in temperatures reaching up to 1400 °C (Hanna Smoleńska, PhD, Eng., hsmolens@pg.edu.pl)
  • Materials testing at various temperatures and humidity levels in climatic chamber
  • Determination of the surface topography using stylus profilometer