Ádám Révész

Ádám Révész

associate professor

PhD (Eötvös Loránd University, Budapest, 2000)

Habilitation (Eötvös Loránd University, Budapest, 2011)

Department of Materials Physics

Room(s): Lágymányos Campus, Northern Building 4.61
Phone(s): +36-1-372-2823
Extension(s): n.a.
Mobile(s): n.a.
Homepage: n.a.
Email: uh.etle.snedul@madazsever

Biography:

VISITING ASSIGNMENTS
1997. Aug.: Bar Ilan Univerity (under supervision of Prof. A. Gedanken), Tel Aviv, Israel
1999. Feb-May: Soros Scholarship at LTPCM-INP de Grenoble (under supervisions of Profs. Y. Brechet and P. Guyot), France
2001. Feb-2002. Aug: EU-RTN Postdoctoral fellow at Univ. Autonoma Barcelona (under supervision of Prof. M.D. Baro), Spain
 2001. Apr, 2002. Feb: ESRF, Grenoble, France
 2003. Jun- 2004. Dec: EU-RTN Postdoctoral fellow
 2005. Nov-2006 Aug: HAESF Senior fellow at Univ. Maryland, USA

RESEARCH EXPERIENCE
Investigation of the thermal properties and the microstructure of ball-milled amorphous and nanocrystalline metals
Preparation nanophase materials by sonochemistry (in collaboration with Bar Ilan Univ., Israel)
Nanocrystallization and nucleation studies of melt-quenched NiP, FeNiBP, FeZr, NiZr, FeHf AlNiRE amorphous alloys (in collaboration with Solid State Research Inst., Budapest, Hungary)
Mechanical, thermal and microstructural investigations of bulk amorphous materials (in collaboration with LTPCM, INP de Grenoble, France)
Fe-based bulk amorphous alloys (in collaboration with UAB, Spain, TU Dresden, Germany)
Hf and Cu-based amorphous ribbons (in collaboration with UAB, Spain, LTPCM, Grenoble, France)
Hydrogen storage properties of nanocrystalline Mg-based powders (in collaboration with Univ. Sofia, Bulgaria)
 Solid state amorphization by high pressure torsion in Al and Cu based alloys (in collaboration with Inst. Mech. Ufa, Russia)
 Partial amorphizaton of amorphous precursors during severe plastic deformation
 Surface mechanical alloying treatment (in collaboration with UMBC, Baltimore MD)

EXPERIMENTAL BACKGROUND
 Differential scanning calorimetry (DSC), Modulated calorimetry (MDSC), Thermo-gravimetric analysis (TGA), Differential thermal analysis (DTA)
 Powder diffraction (XRD), Energy dispersive X-ray analysis (EDX), Quantitative X-ray analysis, High resolution X-ray line profile analysis, Scanning electronmicroscopy (SEM), Transmission electron microscopy (TEM), Syncrotron radiation measurements, Surface area measurements (BET)
 Thermo-mechanical analysis (TMA), Mechanical testing, Hardness measurements (HV)

DECORATIONS AND HONORS
1999: “G. Soros” fellowship
2007: “Bolyai János” outstanding scientific research grant of the Hungarian Academy of Sciences
2011: “Bolyai János” outstanding scientific research grant of the Hungarian Academy of Sciences
2008-2010: Member of the Physics Jury of the Hungarian Scientific Research Fund “OTKA”

TEACHING EXPERIENCE
Electromagnetism course for 1st grade students
Practical lessons in experimental physics, mechanics, electrodynamics for 1st grade students
Laboratory in experimental physics for 1st grade students
Laboratory in calorimetry for 3rd grade students in physics
Demonstrator in electrodynamics for 2nd grade students
Special course on Bulk metallic glasses for 4th grade students

Supervision: 4 Ph.D students
4 MSc. Degrees , 4 BSc Degrees

LANGUAGE English: Fluent (reading, writing, oral)
TOEFL 563
Russian: Medium level state examination, grade “C”
French: Beginner
Spanish: Beginner

OTHER INTERESTS, HOBBY
Competitive basketball
Reading
Travelling and doing excursions

Links to associated scientific database profiles:

Selected publications of recent years:

  1. Á. Révész, Á. Kis-Tóth, L.K. Varga, J.L. Lábár, T. Spassov: High glass forming ability correlated with microstructure and hydrogen storage properties of a Mg-Cu-Ag-Y glass, Int. J. Hydrogen Energy 39 (2014) 9230-9240.
  2. Á. Révész, M. Gajdics, L.K. Varga, Gy.Krállics, T. Spassov: Hydrogen storage of nanocrystalline Mg-Ni alloy processed by equal channel angular pressing and cold rolling, Int. J. Hydrogen Energy 39 (2014) 9911-9917
  3. Zs. Kovács, E. Schafler, P. Szommer, Á. Révész, Localization of plastic deformation along shear bands in Vitreloy bulk metallic glass during high pressure torsion, J. Alloys Compounds 593 (2014) 207-212.
  4. . Révész, M. Gajdics, L.K. Varga, T. Spassov, Hydrogenation of nanocrystalline Mg2Ni alloy prepared by high energy ball-milling followed by equal-channel angular pressing or cold rolling, Advances in Science and Technology 93 (2014) 112-117.
  5. M. Gajdics, M. Calizzi, L. Pasquini, E. Schafler, Á. Révész, Characterization of a nanocrystalline Mg-Ni alloy processed by high-pressure torsion during hydrogenation and dehydrogenation Int. J. Hydrogen Energy 41 (2016) 9803- 9809
  6. Á. Révész, M. Gajdics, E. Schafler, M. Calizzi, L. Pasquini, Dehydrogenation-hydrogenation characteristics of nanocrystalline Mg2Ni powders compacted by high-pressure torsion, J. Alloys Compounds 702 (2017) 84-91
  7. Á. Révész, M. Gajdics, Correlation between Microstructure and Hydrogen Storage Properties of Nanocrystalline Magnesium Subjected to High-Pressure Torsion, Materials Science Forum 885 (2017) 67-73
  8. Zs. Kovács, E. Schafler, V.K. Kis, P.J. Szommer, Á Révész, High pressure torsion of a Vitreloy bulk metallic glass near the glass transition temperature, J. Non-Crystalline Solids 498 (2018) 25-31.
  9. Severe Plastic Deformation of Amorphous Alloys Á Révész, Z Kovács MATERIALS TRANSACTIONS 60 (7) (2019) 1283-1293
  10. Microstructural and morphological investigations on Mg-Nb2O5-CNT nanocomposites processed by high-pressure torsion for hydrogen storage applications M Gajdics, T Spassov, VK Kis, E Schafler, Á Révész International Journal of Hydrogen Energy (2019) in press

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