Pages:: 5-16

Keywords: nuclear magnetic resonance, NMR-imaging, composite materials, aircraft materials, diagnostics and quality control

Reference List

1. Buznik V.M. Jaderno-fizicheskie metody issledovanija neorganicheskih ftoridov [Nuclear-physical methods of investigation of inorganic fluorides]. Vladivostok: Dal'nauka. 1996. 888 s.
2. Frimjen R. Magnitnyj rezonans v himii i medicine [Magnetic resonance in chemistry and medicine]: Per. s angl. M.: KRASAND. 2009. 336 s.
3. Bakhmutov V.I. Solid State NMR in Material Science: Principles and Applications. CRС Press. Taylor @ FrancisGroup. 2012. 264 р.
4. Jernst R., Bodenhauzen Dzh., Vokan A. JaMR v odnom i dvuh izmerenijah [NMR in one and two dimensions]: Per. s angl. M.: Mir.1990. 710 s.
5. Lapina O.B., Habibulin D.F., Papulovskij E.S., Shubin A.A., Guljaeva Ju.K. Stroenie cirkonij-silikatnyh volokon i Pt-katalizatorov na osnove natrijsilikatnyh stekol po dannym JaMR spektroskopii tverdogo tela [The structure of the zirconium silicate fibers and Pt-based catalysts natriysilikatnyh glass by NMR spectroscopy solid] //Zhurnal strukturnoj himii. 2013. T. 54. №S1. S. 152–167.
6. Maculev A.N., Buznik V.M., Livshic A.I., Fedorov P.P., Sobolev B.P. Issledovanija metodom JaMR stroenija i ionnogo transporta v diamagnitnyh tverdyh jelektroli-tah M1-xRxF2+x [NMR studies of the structure and ionic transport in diamagnetic solid electrolytes M1-xRxF2 + x] //Fizika tverdogo tela. 1988. T. 30. №12. S. 3554–3559.
7. Koptjug I.V., Sagdeev R.Z. Sovremennye fiziko-himicheskie prilozhenija JaMR-tomografii. Specifika metoda i ego primenenie dlja issledovanija ob#ektov, soderzhashhih zhidkosti [Modern physico-chemical applications NMR-tomography. The specificity of the method and its application to the study of objects containing liquid] //Uspehi himii. 2002. №71(7). S. 673–699.
8. Morozov E.V., Koptjug I.V., Buznik V.M. JaMR-tomografija kak instrument issledovanija i diagnostiki kompozicionnyh materialov i izdelij na ih osnove [NMR Imaging as an instrument for study and diagnostics of composite materials and articles on their base] //Aviacionnye materialy i tehnologii. 2014. №S1. S. 17–29.
9. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
10. Bejder Je.Ja., Donskoj A.A., Zhelezina G.F., Kondrashov Je.K., Sytyj Ju.V., Surnin E.G. Opyt preminenija aviacionnyh materialov v aviacionnoj tehnike [Experience reference aviation materials in aeronautical engineering] //Rossijskij himicheskij zhurnal. 2008. T. LII. №3. S. 30–44.
11. Buznik V.M. Jadernaja spektroskopija stekla //Fizika i himija stekla. 2000. T. 26. №1. S. 3–29.
12. Avilova I.A., Buznik V.M., Volkov V.I. i dr. Issledovanija vzaimodejstvija vody s polimernymi kompozitami metodom jadernogo magnitnogo rezonansa [Study of interaction of polymer composite materials with water using nuclear magnetic resonance methods] //Aviacionnye materialy i tehnologii. 2014. №S1. S. 30–36.
13. Shmyreva A.A., Matveev V.V., Malkova A.V., Popkov O.V., Kuznecova V.Ju., Jurkov G.Ju. JaMR kobal'ta-59 kobal'tsoderzhashhih nanokompozitov [Cobalt-59 NMR cobalt nanocomposites] //Butlerovskie soobshhenija. 2012. T. 29. №2. S. 87–92.
14. Buznik V.M. Sverhgidrofobnye materialy na osnove ftorpolimerov [Superhydrophobic materials based on fluoropolymers] //Aviacionnye materialy i tehnologii. 2013. №1. S. 29–34.
15. Ignat'eva L.N., Cvetnikov A.K., Livshic A.N., Saldin V.I., Buznik V.M. Spektroskopicheskoe issledovanie modificirovannogo politetraftorjetilena [Spectroscopic study of a modified polytetrafluoroethylene] //Zhurnal strukturnoj himii. 2002. T. 43. №1. S. 69–73.
16. Ignatieva L.N., Bouznik V.M. Quantum chemistry calculations of  branched fluorocarbon systems //Journal of Fluorine Chemistry. 2012. V. 144. P. 17–23.
17. Smirnov M.A., Tarasov V.P., Buznik V.M., Kantaev A.S., D'jachenko A.N. JaMR-issledovanija stroenija kompozitov na osnove politetraftorjetilena i geksaftorsilikata ammonija [NMR studies of the structure of composites based on polytetrafluoroethylene and ammonium fluorosilicate] //Zhurnal strukturnoj himii. 2013. T. 54. C. 173–177.
18. Grjaznov V.I., Petrova G.N., Jurkov G.Ju., Buznik V.M. Smesevye termojelastoplasty so special'nymi svojstvami [Thermoplastic mixed with special properties] //Aviacionnye materialy i tehnologii. 2014. №1. S. 25–29.
19. Aldinger F., Weinmann M., Bill J. Precursor-Derived Si–B–C–N Ceramics //Pure @ Appl. Chem. 1998. V. 70. №2. P. 439–448.
20. Berger F., Muller A., Aldiger F., Muller K. Solid-State NMR Investigation of Si–B–C–N Ceramics Derived from Boron-Modified Poly(allylmethylsilasane) //Z. Anorg. Allg. Chem. 2005. V. 631. P. 355–363.
21. Hegemann D., Riedel R., Oehr C. PACVD-Derived Thin Films in the System Si–B–C–N //Chem. Vap. Deposition. 1999. V. 5. №2. P. 61–65.
22. Vishnyakov V.M., Ehiasarian A.P., Vishnyakov V.V., Hovsepian P., Colligon J.S. Amorphous Boron Containing Silicon Carbo-Nitrides Created by Ion Sputtering //Surface @ Coating Technology. 2011. V. 206. P. 149–154.
23. Colombo P., Mera G., Riedel R., Soraru G.D. Polymer-Derived Ceramics: 40 Years of Research and Innovation in Advanced Ceramics //J. Am. Ceram. Soc. 2010. V. 93. P. 1805–1837.
24. Nghiem Q.D., Kim D.P. Polymerization of Borazine with Tetramethyldivinildisilazane as a New Class SiCBN Preceramic Polymer //J. Ind. Eng. Chem. 2006. V. 12. №6. P. 905–910.