Kompetentnost' 8/129/2015

ISSN 1993-8780

RESEARCH 39

Assessing Trends of Non-Destructive Testing on the Results of Patent Research

L.A. Sashina, Associate Professor, Mechanical Measurements and Non-destructive Testing Department, FSAEI FVT Academy for Standardization, Metrology and Certification (ASMS), Moscow, Russia, lsashina@gmail.com

E.R. Lazarenko, Senior Lecturer, Mechanical Measurements and Non-destructive Testing Department, FSAEI FVT ASMS, Moscow, Russia

Dr. A.A. Slykhov, Associate Professor, Patent Attorney, RF gos. reg. N 136, Moscow, Russia

T.M. Tereshkina, Eurasian Patent Attorney inter. reg. N 238, Patent Attorney, RF gos. Reg. N 54, Moscow, Russia

key words

non-destructive testing means, non-destructive testing methods, patent database FIPS, dynamics of patenting

Referenсes

Non-destructive testing is an essential element for examination of safety and quality of materials and technical objects. According to the authors’ view progressive methods and means of non-destructive testing is largely determined by the presence and quantity of the patented technical solutions in the form of inventions and utility models. On the basis of the patent research they conducted statistical analysis of patent data base FIPS about the dynamics of the patenting for methods of non- destructive testing from 1995 to 2015. According to the results of this analysis, the most promising types of non-destructive testing should be considered radiation, optical, acoustic and magnetic, as well as technologies that use tomographic systems. Some promising solutions specific to the studied areas of patenting are identified and discussed while patent analysis.

1. RF GOST 18353–79 Means of non-destructive control (In Russia).
2. GOST R 15.011–96 Patent research (In Russia).
3. Kretov E.F. Ul’trazvukovaya defektoskopiya v energomashinostroenii, izdanie 4-e [Ultrasonic testing in power engineering], Moscow,

Izdatel’skiy dom Spektr, 2014.

4. Vavilov V.P. Infrakrasnaya termografiya i teplovoy kontrol’ [Infrared thermography and thermal control], Moscow, Izdatel’skiy dom Spektr,
2013.
5. Uchebnoe posobie dlya podgotovki i attestatsii kontrolerov po nerazrushayushchim i razrushayushchim metodam kontrolya [A manual for training and certification of inspectors for non-destructive and destructive methods of control], Moscow, NTTs Ekspert.
6. Shelikhov G.S Magnitoporoshkovyy kontrol’ izdeliy, pod obshchei redaktsiey akademika RAN V.V. Klyueva [Magnetic control of products], Moscow, Izdatel’skiy dom Spektr, 2013.
7. Pankina G.V. Podtverzhdenie sootvetstviya produktsii ustanovlennym trebovaniyam: vozmozhnosti i perspektivy [Verification
of conformity to the requirements: Opportunities and Prospects], Moscow, MATI – Rossiiskiy gosudarstvennyy tekhnologicheskiy universitet im. K.E. Tsiolkovskogo, 2001.
8. Rekomendatsii po tekhnicheskomu osnashcheniyu laboratorii nerazrushayushchego kontrolya [Recommendations for non-destructive testing laboratory equipment], Moscow, NTTs Ekspert, 2009.
9. Gorbachev V.I., Semenov A.P. Radionuklidnye istochniki dlya defektoskopii: informatsionnyy obzor [Radionuclide sources for flaw detection], NTTs Ekspert, 2011, no. 6.
10. Metody nerazrushayushchego kontrolya [Methods of non-destructive testing], podgotovleny v ramkakh realizatsii Programmy razvitiya federal’nogo gosudarstvennogo obrazovatel’nogo uchrezhdeniya vysshego professional’nogo obrazovaniya Sibirskiy federal‘nyy universitet (SFU) na 2007–2010 gody, Krasnoyarsk, IPK SFU, 2009
11. Vidy nerazrushayushchego kontrolya [Types of non-destructive testing], http://ndt-testing.ru/vidy-nerazrushajushhego-kontrolja.html,
2011.
12 Mezhdunarodnaya patentnaya klassifikatsiya (MPK) [International Patent Classification], VOIS, Zheneva, 2014.
13. Kanevskiy I.N., Sal’nikova E.N. Nerazrushayushchie metody kontrolya [Non-destructive testing], Vladivostok, Izdatel’stvo DVGTU, 2007.
14. Mishchenko S.V., Malkov N.A. Proektirovanie radiovolnovykh (svch) priborov nerazrushayushchego kontrolya materialov [Design of radio wave (microwave) devices of non-destructive testing], Tambov, Tambovskiy gosudarstvennyy technicheskiy universitet, 2003.
15. Vidy (metody) i tekhnologiya nerazrushayushchego kontrolya: spravochnoe posobie [Types of non-destructive testing (methods)
and non-destructive testing technology], Moscow, Gosgortekhnadzor Rossii, 2003.
16. Klyuev V.V. Nerazrushayushchiy kontrol’. [Non-destructive testing], Moscow, Mashinostroenie, 2005.
17. Sudarikova E.V. Nerazrushayushchiy kontrol’ v proizvodstve: uchebnoe posobie [Non-destructive testing in production], Sankt-Petersburg, GUAP, 2007.