Ilmiy maqolalar

Ilmiy ishlanmalar qisqacha tasnifi /yutuqlari Hujjat havolasi
1. Phase formation in ceramic materials that contain a cordierite glass synthesized by means of a large solar furnace Applied Solar Energy 01/2013; 49(1). DOI:10.3103/S0003701X13010106
2. Characteristics of phase formation in Angren deposit clays melted with a solar furnace Applied Solar Energy 01/2014; 50(1):27-29. DOI:10.3103/S0003701X14010113

Renewable Energy Global Innovations {ISSN 2291-2460}, October 11, 2014

3. Manufacture of Ceramic High-Porosity Cellular Materials Based on Raw Materials and Production Wastes in Uzbekistan Glass and Ceramics 05/2015; 72(1-2):35-37.

DOI:10.1007/s10717-015-9718-2, 0.38 Impact Factor

4. Solar technologies in Uzbekistan: State, priorities, and perspectives of development Applied Solar Energy 04/2012; 48(2). DOI:10.3103/S0003701X1202003X
5. Synthesis of calcium aluminates on the big solar furnace Applied Solar Energy 04/2012; 48(2). DOI:10.3103/S0003701X12020041
6. Results of actinometric measurements at location of LSF with thermal capacity of 1000 kW Applied Solar Energy 07/2012; 48(3). DOI:10.3103/S0003701X12030024
7. A system with a tracking concentrating heliostat for lighting underground spaces with beams of sunlight Applied Solar Energy 04/2014; 50(2):122-124. DOI:10.3103/S0003701X14020030
8. The optimization of the optical-geometric characteristics of mirror concentrating systems Applied Solar Energy 10/2015; 50(4):244-251. DOI:10.3103/S0003701X14040033
9. Optical-geometric parameters of a linear Fresnel mirror with flat facets Applied Solar Energy. Volume 50, Issue 3, pp. 168-170
10. Adjustment Of Facets Of Flat And Focusing Heliostats, Concentrators, And Fresnel Mirror Concentrating Systems. Applied Solar Energy. v.51.pp,151-155. ИМПАКТ-фактор 0.16-0.2 SJR
11. The calculation procedure of the optical-energy characteristics of mirror concentrating systems for technological and energy application Applied Solar Energy. Volume 51, Issue 4, pp 301-305. ИМПАКТ-фактор 0.16-0.2 SJR
12. Creation Of Impulses Of Concentrated Solar Radiation Of Different Capacity And Duration Applied Solar Energy. v.51. pp, 148-150. ИМПАКТ-фактор 0.16-0.2 SJR
13. Antireflection textured coating for silicon solar cells Applied Solar Energy, Volume 51, Issue 1, pp 83-84. ИМПАКТ-фактор 0.16-0.2 SJR
14. The Properties of Pyroceramic Materials Syntheses by Concentrated Solar Energy International Journal of Mining Science (IJMS) Volume 1, issue 2, pp.1-5. ИМПАКТ-фактор 0.868 SJR
15. Особенности получения многофункциональной керамики на базе минерального сырья Узбекистана Огнеупоры и техническая керамика №1-2, с.77-81. ИМПАКТ-фактор 0.25 SJR
16. Отличительные особенности керамогранита и естественного гранита Огнеупоры и техническая керамика. – № 3. – С. 35-37. ИМПАКТ-фактор 0.25 SJR
17. Функциональная керамика, синтезированная в солнечной печи Огнеупоры и техническая керамика. – № 3. – С. 42-47. ИМПАКТ-фактор 0.25 SJR
18. Manufacture of Ceramic High-Porosity Cellular Materials Based on Raw Materials and Production Wastes in Uzbekistan Glass and Ceramics. Volume 72(1-2). pp. 35-37. Impact Factor: 0.65.
19. Basalt Fibers Obtained in a Solar Furnace Glass and Ceramics. Volume 72, Issue 7, pp. 278-279. Impact Factor: 0.65. https://link.springer.com/journal/10717
20. Solar technology for the synthesis and investigation of superconducting ceramics Bi1,7Pb0,3Sr2Ca(n-1)CunOy(n= 3÷5) Refractories and Industrial Ceramics №1. pp 35-39. Impact Factor: 0.54
21. Структурообразование в системе TiO2–BaСO3 в поле концентрированного солнечного излучения Журнал Стекло и керамика. №3.ст.16-19. Impact Factor: 0.65
22. Об изменении характеристик зонной структуры оксидных материалов при высоких температурах Журнал «Теплофизика высоких температур», том 54, № 4, с. 1–7
23. Analytical Approaches of Calculation of the Density Distribution of Radiant Flux from the Sun for Parabolic–Cylindrical Mirror-Concentrating Systems Applied Solar Energy, Vol. 52, No. 2, pp. 137–140
24. Method of Alignment of the Optical Axis of a Heliostat Tracking Sensor with the Main Optical Axis of the Concentrator Applied Solar Energy, Vol. 52, No. 3, pp. 215–219. ИМПАКТ-фактор 0.25 SJR
25. On ensuring the plasticity of molding composition in the manufacture of ceramic catalyst carriers Refractories and Industrial Ceramics. pp 21-26. Impact Factor: 0.54
26. Improving dielectric properties of piezoelectric ceramics of concentrated solar radiation flux Refractories and Industrial Ceramics. pp 34-37. Impact Factor: 0.54
27. Определение эффективности фильтрации пенокерамических фильтров на основе сырьевых материалов и отходов производства Узбекистана «Стекло и керамика». №4. ст.30-32. Impact Factor: 0.65
28. Получение мелкокристаллического иттрий-алюминиевого граната в солнечных печах Новые огнеупоры. №3,144-147
29. Preparation of finely crystalline yttrium-aluminum garnet in solar furnaces Refractories and Industrial Ceramics. Vol.58, No.2, р.179-182. Impact Factor: 0.54
30. Эффективность очистки жидкостей от механических примесей при использовании керамических мембран Огнеупоры и техническая керамика. №3. стр.24-28
31. Calculation of optical-geometrical characteristics of parabolic-cylindrical mirror concentrating systems «European science review» # 1-2, pp.28-32. Impact Factor: 1
32. Measurements of Solar Resources in Uzbekistan Applied Solar Energy, Vol. 1, pp. 57-60. ИМПАКТ-фактор 0.25 SJR
33. Глины Узбекистана как сырьевой материал для получения защитных покрытий на стальных поверхностях “Огнеупоры и техническая керамика” – №1-2. – стр. 45-48. Impact Factor: 0.65
34. Materials for Surface Protection of Heating Boiler Tubes Glass and Ceramics. Volume 74, Issue 5–6, pp 172–175. Impact Factor: 0.65
35. Химическая стойкость материалов на основе плавленого минерального сырья Узбекистана Стекло и керамика. №7 – С.32-36. Impact Factor: 0.65
36. Влияние термообработки на свойства жидкого стекла Огнеупоры и техническая керамика. – №6 – С.44-50
37. Обеспечение безопасности хранения серной кислоты Computational nanotechnology, № 2. ст. 62-79 Impact Factor: 0.19
38. Characteristic Features of the Energy Modes of a Large Solar Furnace with a Capacity of 1000 kW Applied Solar Energy, 2018, Vol. 54, No. 2, pp. 99–109. ИМПАКТ-фактор 0.25 SJR
39. Optical-energy characteristics of the optimal module of a solar composite parabolic-cylindrical installation Applied Solar Energy, 2018, Vol. 54, No. 4 .pp.43-48
40. Modeling and Calculation of Optical-Geometric Characteristics of a Solar Concentrator with Flat Fresnel Mirrors Applied Solar Energy, 2018, Vol. 54, No. 3, pp. 187–192
41. O features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 3 Computational nanotechnology, 2-2018, 77-87. Impact Factor: 0.19
42. Regressions models for forecasting of earthquakes Computational nanotechnology, 2-2018, 43-46. Impact Factor: 0.19

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