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Вдавливание и извлечение
строительных элементов:
свай, труб, шпунтов

Ознакомьтесь с нашей подборкой патентов и научных публикаций, посвященных разработке и внедрению автоматизированных сваевдавливающих машин и "Агрегатно-модульной системы для вдавливания сваи". Узнайте о достижениях в области автоматизированного устройства свайных фундаментов, методах полномасштабного геотехнического моделирования и о применении разработанной технологий в различных производственных и инженерно-геологических условиях. Вы также можете ознакомиться с научными статьями, добавленными в международную научную базу данных Google Scholar, и с записью автора в ORCID. https://orcid.org/0000-0002-7284-593X

Список Патентов

1. Способ устройства свайных фундаментов и система для вдавливания свай (2017) Мещеряков, Г.Н. - Патент Украины на изобретение №114055, Бюллетень №7/2017.

2. Способ устройства свайных фундаментов (2016) Мещеряков, Г.Н. - Патент Украины №112397 на полезную модель. № U201607372, Бюллетень №23/2016.

3. Система для вдавливания свай (2016) Мещеряков, Г.Н. - Патент Украины №112398 на полезную модель. Бюллетень №23/2016. Основная концепция и технические параметры системы для вдавливания свай и системы перемещения с использованием трёх продольных направляющих и двух поперечных кареток.

4. Система для вдавливания свай (2011) Мещеряков, Г.Н., Вакулин, Н.А. - Патент Украины на изобретение №93343. Бюллетень №3/2011. Основная концепция и технические параметры модульной системы для вдавливания свай.

5. Механизм для перемещения тяжелых машин, сооружений и других конструкций (2011) Вакулин, Н.А., Мещеряков, Г.Н., Шаповалов, Н.И., Данукалов, С.К. - Патент Украины №62369 на полезную модель. Заявка №U201101351, Бюллетень №16/2011. Конструктивно-технологические параметры механизма горизонтального скольжения напольного типа с возможностью изменения направления движения.

6. Машина для вдавливания, испытания и извлечения свай (2006) Мещеряков, Н.Г., Вакулин, А.А. - Патент Украины №77005, Приоритетная дата: 25 марта 2004 года, Бюллетень по изобретениям №10, 2006.

7. Система для вдавливания свай (2006) Мещеряков, Г.Н., Вакулин, Н.А. - Патент РФ №59646 на полезную модель. Приоритетная дата: 30 января 2006 года, Бюллетень №36, 2006.

8. Сваевдавливающая машина (2004) Вакулин, А.А., Волошин А.С., Мещеряков, Н.Г. - Патент Украины №42940. Приоритетная дата: 11 апреля 2000 года, Бюллетень по изобретениям №8, 2004. Гидравлическая сваевдавливающая машина с боковым клиновым центрирующим зажимом строительного элемента.

Список научных публикаций

1. Automated Construction Process for Foundation Engineering. (2023) Meshcheriakov, G.N.; Andryushchenko, A.M.  ISARC. Proceedings of the 40th International Symposium on Automation and Robotics in Construction; Waterloo Том 40: IAARC Publications. Pages: 172-179. The study proposes the development of automated piling equipment and construction methods for various structural, technological, and organizational solutions for pile fields under complicated conditions.

2. Technology and Equipment for Flow-production Pile Pressing (2008) by G.N. Meshcheriakov, N.А. Vakulin - "Construction Structures: Interdepartmental Scientific and Technical Collection of Scientific Works," Volume 71, Book 2, Kyiv, Page 290. The main results of the research, are issues of production continuity, combining technological processes and individual operations.

3. Full-Scale Experimental Research on Sheet Pile Pressing (2011) by M.P. Doubrovsky, V.N. Petrosyan, G.N. Meshcheriakov - "Construction Structures: Interdepartmental Scientific and Technical Collection of Scientific Works (Construction)," Volume 75, Book 2, Kyiv, Page 338. Conducting full-scale experiments using a test pile pressing machine.

4. Large-Scale Laboratory Studies of the Interaction of Sheet Pile Locking Joints with Gound Medium (2011) by M.P. Doubrovsky, G.N. Meshcheriakov, V.N. Petrosyan - "Construction Structures: Interdepartmental Scientific and Technical Collection: Soil Mechanics and Foundation Engineering," Volume 75, Book 2, Kyiv, Pages 113-119. Analysis of full-scale experiments.

5. Study and Modeling of Interaction Processes of Sheet Piles Installed by Pressing (2012) by G.N. Meshcheriakov - "Scientific and Technical Journal of NDIBV: New Technologies in Construction," Issue No. 1-2 (23-24), Page 27. Development of test equipment, conducting full-scale physical modeling of interactions between pressing elements and foundation soil.

6. Innovative Solutions in Geotechnical Construction and Coastal Hydrotechnics in Complex Engineering-Geological Conditions of Ukraine (2014) by N.L. Zotsenko, Y.L. Vinnikov, M.P. Doubrovsky, G.N. Meshcheriakov, and others - "World of Geotechnics," Issue No. 1, Ukraine, Page 25-29. Prospects and experience in using the developed technology and equipment for coastal hydrotechnical engineering and geotechnics.

7. Numerical and Physical Modeling of U-Shape Sheet Piles Behavior (2015) by M. Doubrovsky, G. Meshcheriakov - "Bases and Foundations: Interdepartmental Scientific and Technical Collection," Issue 37/ Under general ed. Boyko - K.: KNUBA, Kyiv. Page 440. Development of test rig, full-scale physical modeling of interactions between pressing elements and foundation soil.

8. Physical Modeling of Sheet Piles Behavior to Improve Their Numerical Modeling and Design (2015) by M.P. Doubrovsky, G.N. Meshcheriakov - "Soils & Foundations," Vol. 55, Issue 4, Off. Journal of the Japanese Geotechnical Society, Elsevier, pp. 691-702. Full-scale experiments, research results. https://www.sciencedirect.com/science/article/pii/S003808061500075X

9. Perspectives of Heating with the Use of Thermal Piles (2016) by А.М. Andryushchenko, G.N. Meshcheriakov - "Information Technologies in Education, Science, and Production," Issue 2(13), Pages 23-26. Technology for installation of thermal pump piles using the modular piling system.

10. Technology and Equipment for Automated Pile Pressing (2016) by G.N. Meshcheriakov - "Information Technologies in Education, Science, and Production," Issue 2(13), Technologies, Materials, Transport, and Logistics, Pages 27-39. Development of the conceptual piling equipment and construction methods for pressing piles into the ground in automatic mode.

11. Modular Piling System (2006) by G.N. Meshcheriakov, N.А. Vakulin - "Lifting Structures. Special Equipment. Scientific and Technical and Production Journal," No. 10 (62), ISSN-1682-3095, Odessa, Pages 10-12. Presentation of the developed piling technology and equipment.

12. Modular Pile Pressing System (2007) by G.N. Meshcheriakov, N.А. Vakulin - "Materials of International Scientific and Practical Conferences on Lifting Structures in 2006," Ed. M.M. Andriienko, Astropint, Odessa, Page 192. Presentation of the developed technology and equipment.

13. Flow-Production Pile Pressing. Modular System (2007) by N.А. Vakulin, G.N. Meshcheriakov - "Special Equipment," Moscow, No. 1 (34), Special Technologies, Pages 50-52. Issues of combining technological processes and individual operations for pile pressing into the ground.

14. Improvement of Monitoring, Design, and Construction of Pile Structures in the Base of Soil Slopes (2010) by M.P. Doubrovsky, М.B. Poizner, G.N. Meshcheriakov - "World of Geotechnics," No. 4, Ukraine, Pages 8-12. Experience using the developed piling technology on soil slopes.

15. Application of the Modular Piling System in Urban Development Conditions (2008) by N.G. Meshcheriakov, G.N. Meshcheriakov, А.А. Vakulin, N.А. Vakulin - "Proceedings of the International Conference: Urban Development and Geotechnical Construction," Ed. Ulytsky, Saint-Petersburg, Pages 611-615. Concept of the reconstruction of St. Paul's Church foundation in Odesa, Ukraine.

16. Pile Driving and Testing Equipment (2008) by N.G. Meshcheriakov, G.N. Meshcheriakov, A.A. Vakulin, N.A. Vakulin - "The Application of Stress Wave Theory to Piles: Science, Technology, and Practice," Proc. of the 8th International Conference ISSMGE (TC18) on Deep Foundations and the Portuguese Geotechnical Society, IOS Press, Lisbon, Portugal, Pages 245-248. Concept of the aggregate-modular system for pile pressing and soil testing. https://www.iospress.nl/book/the-application-of-stress-wave-theory-to-piles-science-technology-and-practice.

17. Improvement of Monitoring, Design, and Constructing of Piled Structures Located at the Base of Soil Slopes (2009) by M. Doubrovsky, M. Poizner, G. Meshcheriakov - Proc. of the 17th ICSMGE / The Academia & Practice of Geotech. Engineering (TS4C) Natural Hazard Mitigation, Alexandria, pp. 2609-2612. Application of piling equipment to the landslides on the Odesa coast.

18. Conceptual Techniques for Full-Scale Physical Modeling of Pressed-In Pile Behavior (2010) by G. Meshcheriakov & M. Doubrovsky - Proc. of the International Conf. ICPMG 2010: Physical Modeling in Geotechnics, Zurich, Switzerland, Taylor & Francis Group, London, pp. 817-822. Development of test piling equipment and full-scale physical modeling techniques for interaction between driven construction elements and soil.

19. Research and Development of Press-In Piling Technology in a Restrained Urban Environment (2010) by E. Wahler, G. Meshcheriakov, M. Doubrovsky - Proc. of Geotechnical Challenges in Megacities (GeoMos), Vol.2, Moscow, pp. 479-486. Application of the developed pile pressing technology and equipment in a limited urban environment in Odesa, Ukraine.

20. Full-Scale Physical Modeling of Sheet Piles Pressed-in to Hard Soil (2011) by M. Doubrovsky, M. Poizner, G. Meshcheriakov - Proc. of the 15th European Conf. on Soil Mech. & Geotech. Engineering, IOS Press, Athens, pp. 1467-1472. Full-scale physical modeling techniques.

21. Full-Scale Physical Modeling of the System: Granular Media – Steel Sheet Piling (2011) by M.P. Doubrovsky, G.N. Meshcheriakov, V.N. Petrosyan, O.M. Dubrovska - Advances in Applied Physics & Material Science Congress (APMAS 2011), Antalya, Turkey, pp. 350-358. Developed pile test rig and conducted full-scale physical experiments on sheet pile pressing into the ground. https://aip.scitation.org/doi/abs/10.1063/1.3663147

22. Sheet Pile Testing & Design Improvement (2012) by M.P. Doubrovsky & G.N. Meshcheriakov - Proc. of IS-Kanazawa 2012: Testing and Design for Deep Foundation, Kanazawa University Kanazawa, Japan, pp. 589-596. Development of the interaction between driven elements and the soil using a pile pressing machine as a test rig and full-scale physical modeling.

23. Automated Construction of Pile Foundation (2018) by G.N. Meshcheriakov - Underground Urbanistics: Architecture and Geotechnics (ISSMGE TC207) St. Petersburg. Electronic Conference Proceedings, pp. 1384-1391.The initial construction parameters for the automated piling processes.

24. Piling Technologies in Ukraine: Some Recent Developments (2018) by G.N. Meshcheriakov, M.P. Doubrovsky, O.M. Dubrovska - Proceedings of the 1st International Conference on Press-in Engineering 2018, Kochi, Japan (1st ICPE), No. 0704, pp. 361-370. Research results and examples of the use of developed equipment and pile-pressing technology in construction projects in Ukraine.

25. The works are included in the international scientometric database Google Scholar, a profile of G.N. Meshcheriakov. hyperlinks: https://scholar.google.com/citations?user=YlVd_78AAAAJ&hl=ru

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