ФІЗИКО-МЕХАНІЧНИЙ ІНСТИТУТ ІМ. Г.В. КАРПЕНКА НAH УКРАЇНИ
KARPENKO PHYSICO-MECHANICAL INSTITUTE OF THE NAS OF UKRAINE

 

Department № 5
Optical-digital diagnostic systems

Scientific credo: Diagnostics of materials, construction elements and products, as well as change of their physical-mechanical properties during loading, exploitation or influence of corrosive medium by hybrid optical-digital and analogous systems for diagnostic of material, products and bioobjects.
Main research directions:  Optical speckle metrology, namely electronic speckle-pattern interferometry and digital image correlation, optical interferometry, digital holography, optical-acoustical technologies, diagnostics and nondestructive testing of stress-strain state in materials and structures, optical and digital image and signals processing, computer simulation.

Department staff:

Muravsky Leonid
Head of department
Professor
+38(032)2296857;
+38(032)263-33-88
 
 
Mytsyk Bogdan
Leading research fellow
+38(032)2296752
Voronyak Taras
Senior research fellow
+38(032)2296609; +38(032)2296614
Kmet’ Arkadiy
Senior research fellow
+38(032)2296313
 
Lychak Oleg
Senior research fellow
+38(032)2296891
olehlychakyahoocom
Maksymenko Oleksandr
Senior research fellow
+38(032)2296695
Mokry Oleg
Senior research fellow
+38(032)2296769

 Demyanyshyn Natalya

Research fellow

+38(032)2296752

nmdem@ipm.lviv.ua

 Melnyk Mykola

Research fellow

 

 

 Sakharuk Oleksandr

Research fellow

+38(032)2296609

sakharuk@ipm.lviv.ua

 Kost’ Yaroslav

Junior research fellow

+38(032)2296442

kost_y@ukr.net

 Polovynko Taras

Junior research fellow

+38(032)2296313

polovynkot@gmail.com

 Kuts’ Oleksandr

Chief engineer

+38(032)2296890

kuts@ipm.lviv.ua

 Gaskevych Georgiy

Leading engineer

+38(032)2296313

gas@ipm.lviv.ua

 Drymalyk Andriy

Leading engineer

+38(032)2296442

drymalyk@ipm.lviv.ua

 Golynsky Ivan

1st class engineer

+38(032)2296708

golynskij@ipm.lviv.ua

 Ilchyshyn Bogdan

1st class engineer

+38(032)2296705

 

 Shtabsky Mykola

1st class engineer

+38(032)2296442

 

 Stasyshyn Igor

2nd class engineer

+38(032)2296313

 

 Begen Ivanna

1st class technician

+38(032)2296442

 

 Kulyk Igor

1st class technician

+38(032)2296442

 

 Dyachuk Maryana

2nd class engineer

 

 

Department’s productions and equipments:

 
 
 
   

Main publications:

Monographs:

  1. Muravsky L.I. Speckle correlation methods for study of mechanical properties of constructional materials. – Kyiv: Naukova dumka, 2010. – 208 p. (in Ukrainian)
  2. Muravsky L.I., Bobytsky Ya.V., |Gaskevych G.I. Optical information systems: Textbook. –Lviv: Spolom, 2011. – 200 p. (in Ukrainian)
  3. Mytsyk B.G. Photoelasticity of anisotropic materials. – Lviv: Liga-press, 2012. – 440 p. (in Ukrainian)
  4. Muravsky L.I., Voronyak T.I., Kmet’ A.B. Laser interferometry of surfaces for technical diagnostics purposes. – Lviv: Spolom, 2014. – 272 p. (in Ukrainian)

Papers:

  1. Muravsky L.I., Sakharuk O.M., Byczkowska-Lipińska L. Accurate definition of correlation peak position by optical speckle-displacement correlation technique // Opt Lasers Eng. 2009. V.47, N 6. P.712–720.
  2. Two-frame phase shifting interferometry for retrieval of smooth surface and its displacements / L.I. Muravsky, Ostash O.P., Kmet' A.B., Voronyak T.I., Andreiko I.M. // Opt. Lasers Eng. 2011. V.49, N.3. P. 305–312.
  3. Muravsky L.I., Kmet' A.B., Voronyak T.I. Retrieving the relief of a low-roughness surface using a two-step interferometric method with blind phase shift of a reference wave // Opt Lasers Eng. 2012. V. 50, No 11. P. 1508–1516.
  4. Muravsky L., Kmet' A., Voronyak T. Two approaches to the blind phase shift extraction for two-step electronic speckle pattern interferometry // Opt. Eng. 2013. V. 52, N 10. P. 101909–1-8.
  5. Interferometric technique for controlling wedge angle and surface flatness of optical slabs / A.S. Andrushchak, T.I. Voronyak, O.V. Yurkevych, N.A. Andrushchak, A.V. Kityk // Opt. Lasers Eng. 2013. 51, №4. P. 342–347.
  6.  Voronyak T.I. Determination of Poisson’s ratio by the methods of two-step Phase-shifting interferometry // Material science. 2014. V. 49, N 4 P. 508–515.
  7.  Voronyak T.I., Ivanyts’ky Ya.L.,  Muravsky L.I.,  Semenets’ O.I. Investigation of the deformation and fracture of composites with the help of electronic speckle interferometry // Material science. 2013. V. 49, N 2 P. 270–275.
  8. Sakharuk O.M., Muravsky L.I., Golynsky I.S., Lychak O.V. Determination of the field of local displacements by the digital speckle correlation method with adaptive segmentation of the images // Material science. 2014. V. 49, N 5 pp 660–666.
  9. Study of piezo-optic effect of calcium tungstate crystals by the conoscopic method / B.G. Mytsyk, Ya.P. Kost’, N.M. Demyanyshyn, V.M. Gaba , A.M. Sakharuk // Opt. Materials. 2015. Vol.39. Issue 1. P.69–73.
  10. B.G. Mytsyk, Ya.P. Kost’, N.M. Demyanyshyn Influence of thermal treatment of D16 alloy on its’ mechanical properties under low strains // Solid state physics. 2014. V.56, N 11. P. 2156–2161. (in Russian)

Patents:

  1. Utility model patent № 42549 Ukraine. Technique for determination of predestruction fatigue zone dimensions / Ostash O.P., Muravsky L.I., Andreyko I.M., Voronyak T.I., Kmet' A.B., Vira V.V.; published 10.07.2009, Bulletin № 13.
  2. Utility model patent № 92126 Ukraine. Technique for increase of accuracy of determination of coefficients of expansion of mechanical strains field near crack tip into a Williams series / Lychak O.V., Golynsky I.S., Muravsky L.I.; published 11.08.2014, Bulletin № 15
  3. Utility model patent № 79499 Ukraine. Technique for measurement of change of mechanical properties of metals / B.G. Mytsyk, N.M. Demyanyshyn, published 25.04.2013, Bulletin №8.
  4. Utility model patent № 91143 Україна. Polarization-optical device for determination of rotation piezo-optic coefficients of optically uniaxial crystals / B.G. Mytsyk, V. Gaba, N.M. Demyanyshyn, Ya.P. Kost’, published 25.06.2014, Bulletin №12.
  5. Utility model patent №73511 Ukraine. Technique of creation of sensing element for electro-optic or elasto-optic cell from anisotropic crystal material / N.M. Demyanyshyn, B.G. Mytsyk, A.S. Andruschak, published 25.09.2012, Bulletin №18.
  6. Utility model patent №83390 Ukraine. Technique of creation of crystal specimen for the light Bragg cell / A.S. Andruschak, O.V. Bury, N.M. Demyanyshyn, S.B. Ubizsky, published 10.09.2013, Bulletin №17.
Partners:
  1. Department №8 “Optimization of welding constructions of new technique”, The E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine, 11, Bozhenko str., Kyiv, Ukraine
  2. Department of Photonics, Institute of Telecommunications, Radioelectronics and Electronic Engineering, Lviv Polytechnic National University, Lviv, Ukraine
  3. Faculty of electronics, Ivan Franko National University of Lviv, Lviv, Ukraine
  4. State institution "Scientific Centre for Aerospace Research of the Earth Institute of Geological Science National Academy of Sciences of Ukraine", 01601, Kyiv, Oles' Honchar str., 55-Б.
  5. The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  6. Optical and optoelectronic devices department, Instrumentmaking faculty, National Technical University of Ukraine “Kyiv polytechnic institute”, Peremogy av. 31, Kyiv, Ukraine
  7. Academician, Dr.Sci., L.M. Lobanov, Department №8 “Optimization of welding constructions of new technique”, The E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine, 11, Bozhenko str., Kyiv, Ukraine
  8. Leading research fellow, PhD, V.A. Pivtorak, Department №8 “Optimization of welding constructions of new technique”, The E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine, 11, Bozhenko str., Kyiv, Ukraine
  9. Prof, Dr.Sci., V.G. Kolobrodov, Optical and optoelectronic devices department, Instrumentmaking faculty, National Technical University of Ukraine “Kyiv polytechnic institute”, Peremogy av. 31, Kyiv, Ukraine
  10. Prof, Dr.Sci., V.M. Borovytsky, Optical and optoelectronic devices department, Instrumentmaking faculty, National Technical University of Ukraine “Kyiv polytechnic institute”, Peremogy av. 31, Kyiv, Ukraine
  11. Prof. Pascal Picart, Acoustic laboratory, University of Maine, Le Mans, France
  12. Prof. Wim Van Paepegem, Dept. of Materials Science and Engineering, Ghent University, Technologiepark-Zwijnaarde 903, 9052 Zwijnaarde, Belgium
  13. Prof., DSc. Cezary Sławiński, Institute of Agrophysics, Polish Academy of Sciences, Lublin, Poland
  14. Prof., DSc. Józef Horabik, The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  15. Prof., DSc. Wojciech Skierucha, The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  16. Prof., DSc. Bogusław Usowicz, The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  17. Prof., DSc. Jerzy Lipiec, The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  18. Prof., DSc. Artur Zdunek, The Bohdan Dobrzański Institute of Agrophysics, Polish Academy of Sciences, ul. Doświadczalna 4, 20-290 Lublin, Poland
  19. Prof., DSc. Zbigniew Kołakowski, The Institute of Materials Science and Engineering, Faculty of Mechanical Engineering, Lodz University of Technology, Lodz, Poland
  20. Prof., DSc. Piotr Szczepaniak, The Institute of Information Technology, Lodz University of Technology, ul.Wólczańska 215 budynek B9, Lodz, Poland
  21. Prof., DSc. Waldemar Wójcik, The Institute of Electronics and Information Technology, Lublin University of Technology, ul.Nadbystrzycka 38A, 20-618, Lublin, Poland
  22. Prof. Henryk Sobczuk Polish Academy of Sciences Scientific Center in Kiev, str. B. Khmelnytskogo 49/1, Kyiv, Ukraine