Zobrazeno 1 - 10 of 20 pro vyhledávání: '"T. S. Frangul'yan"'
1
Efficiency of radiation technology for preparing high-strength corundum-zirconium ceramics
Autor: T. S. Frangul'yan, A. M. Pritulov, Yu. M. Annenkov, N. N. Aparov
Publikováno v: Refractories. 36:139-143
The physical principles of radiation sintering and modification of ceramic structures are considered. Sintering of corundum-zirconium ceramics in thermal and electron-beam heating methods is described. The sintering temperature of ceramics is found t
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::b4ad60995384792b42d1dfed52b8fbce
https://doi.org/10.1007/bf02306341
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2
Resonance in the efficiency of the conduction-state formation in ion-bombarded crystalline quartz
Autor: V. F. Pichugin, T. S. Frangul’yan
Publikováno v: Technical Physics Letters. 26:861-863
A resonance in the ion conductivity as function of the bombarding-ion mass number was observed in ion-irradiated crystalline quartz. The resonance is observed at the optimum ratio of the energy losses for the nuclear and electron stopping of the impi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::289e44356bda69331f44d6b03a7dcddd
https://doi.org/10.1134/1.1321220
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3
Effect of a stabilizing Y2O3 additive on the strength properties of zirconia ceramics sintered from plasma chemical powders
Autor: A. V. Voznyak, T. S. Frangul’yan, N. N. Aparov, Yu. M. Annenkov, A. M. Gornostaev
Publikováno v: Glass and Ceramics. 54:401-403
The effect of the concentration of a stabilizing Y2O3 additive in zirconia ceramic sintered from ultradisperse plasma chemical powders on their properties is described. The optimum mole fraction (3%) of Y2O3 providing the best strength properties of
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::76aea239efb683ef5cb2a79a1119907e
https://doi.org/10.1007/bf02766763
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5
Sintering of diopside ceramics using a beam of accelerated electrons
Autor: Yu. I. Galanov, T. S. Frangul'yan, Yu. I. Alekseev
Publikováno v: Glass and Ceramics. 47:312-314
On examine les possibilites d'acceleration du frittage des ceramiques de diopside (metasilicate calco-magnesien) a l'aide du chauffage par un faisceau d'electrons
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::ee218a16b54138552ec167bb32ee2d85
https://doi.org/10.1007/bf00677961
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6
Dispersion efficiency of powders of the Al2O3-(ZrO2+Y2O3) system obtained by the plasma-chemical method
Autor: T. S. Frangul’yan, Yu. P. Sharkeev, N. N. Aparov, N. V. Dedov, Yu. M. Annenkov, A. I. Solov'ev
Publikováno v: Glass and Ceramics. 52:219-220
The method of electron microscopy is used to study the morphology and fraction composition of powders of the Al2O3-(ZrO2+Y2O3) system subjected to mechanical, electric pulse, and “explosion” dispersion caused by the dosed addition of ammonium nit
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::9a30849e58cbc6c7eb4c387e3d25e81c
https://doi.org/10.1007/bf00679884
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7
Specifics of the formation of radiation defects in tracks of heavy particles in alkali-halide crystals
Autor: Yu. M. Annenkov, V. F. Stolyarenko, T. S. Frangul'yan
Publikováno v: Soviet Physics Journal. 29:396-399
In this work the authors make a comparative analysis of the laws that govern the formation of stable hole defects in KBr crystals under irradiation with high-energy proton beams in comparison with the effects that are attained under low-intensity x-r
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::5a21b2d09d38bb36817b27b1c34b11b0
https://doi.org/10.1007/bf00895301
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8
Abstracts of articles deposited at VINITI
Autor: N. V. Dergunova, V. P. Sakhnenko, E. G. Fesenko, A. I. Abakumov, V. S. Vinogradov, V. B. Dinesrshtein, A. Yu. Kudzin, S. A. Flerova, O. E. Bochkov, A. G. Pastushenkov, L. V. Gorchakov, E. R. Tikhonravova, I. P. Lukin, Yu. A. Solov'ev, N. I. Yagushkin, P. S. Anan'in, I. V. Glavanakov, M. N. Gushtan, A. P. Kashirin, V. I. Stibunov, A. I. Medved', A. Ya. Mikhal'chuk, Yu. G. Bachinskii, V. A. Liopo, V. F. Panov, E. N. Perevoznikov, P. G. Maslov, G. E. Skvortsov, I. D. Grigor'eva, V. S. Timoshinin, V. A. Lysak, A. A. Martynov, O. K. Pogosov, A. V. Miliyanchuk, I. M. Stakhira, L. V. Mikhailov, L. N. Garkusha, V. I. Krasnikov, V. S. Sperkach, P. F. Cholpan, M. I. Fedorov, V. A. Shorin, L. M. Fedorov, L. E. Popov, A. A. Russiyan, I. V. Tereshko, N. A. Aleksandrov, P. I. Krivenko, V. G. Yaichnitsyn, S. M. Blokhin, �. T. Shipatov, V. I. Obozov, A. G. Buntar', A. M. Tkhorivskii, D. M. Freik, B. F. Kostik, V. M. Shperum, G. V. Maier, V. S. Borisov, N. N. Byzov, S. E. Kul'kova, V. E. Egorushkin, I. N. Anokhina, V. P. Fadin, S. M. Gerasyuta, N. G. Markov, A. N. Kulikov, G. A. Ponomarev, S. A. Vladimirov, V. D. Bondarev, A. V. Ushakov, N. S. Golosov, M. P. Arbuzov, M. M. Yatsura, P. P. Kirichok, O. R. Yatsura, A. A. Vorob'ev, E. K. Zavadovskaya, Yu. M. Annenkov, T. S. Frangul'yan, V. K. Biller, Yu. I. Galanov, A. B. Chormonov
Publikováno v: Soviet Physics Journal. 22:558-571
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::dbb78a9234f9cae0631ed1bebdf5e0d8
https://doi.org/10.1007/bf00893259
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