Двухосная пустотная плита с инновационными видами пустот

Автор: Чураков Артемий Георгиевич

Журнал: Строительство уникальных зданий и сооружений @unistroy

Рубрика: Бетон. Конструкции с применением бетона

Статья в выпуске: 6 (21), 2014 года.

Бесплатный доступ

Изобретение нового вида пустотных плит, работающих не по одному, а двум направлениям, стало настоящим прорывом на рубеже 20 и 21 веков. В течение первого десятилетия было проведено множество исследований по целесообразности применения новой технологии. В данной статье представлены различные виды двухосных пустотных плит, технологии создания которых появлялись в течение последних 15 лет. В результате обзора выявлены преимущества новых видов пустотной плиты перед обычной цельной плитой. Также, в статье продемонстрированы наиболее известные на сегодняшний день примеры применения новой технологии. Все опыты и исследования, проведенные, в основном, компаниями-производителями, подкреплены нормативными актами и документами.

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Пустотная плита, пузырьковые перекрытия

Короткий адрес: https://sciup.org/14322131

IDR: 14322131

Список литературы Двухосная пустотная плита с инновационными видами пустот

Lancaster L. C. (2005). Concrete Vaulted Construction in Imperial Rome: Innovations in Context//Cambridge University Press. 2005. Pp. 6-10.
AirDeck [web source] URL: http://www.airdeck.be (date of reference: 18.09.2013).
EN 1992 Eurocode 2 [web source] URL: http://eurocodes.jrc.ec.europa.eu/showpage.php?id=132 (date of reference: 22.09.2013).
Bond A. J., Brooker O., Harris A. J. et. al. (2006). How to Design Concrete Structures using Eurocode 2. 2006. 104 p.
BubbleDeck [web source] URL: http://www.BubbleDeck.com (date of reference: 28.09.2013).
Cobiax [web source] URL: http://www.cobiax.com/en (date of reference: 28.09.2013).
U-boot [web source] URL: http://www.daliform.info/USB/download/referenze/Uboot_reference.pdf (date of reference: 28.09.2013).
Schnellenbach-Held M., Ehmann S., Pfeffer K. (1998). BubbleDeck -New Ways in Concrete Building. Technische Universität Darmstadt, DACON. 1998. Vol. 13. Pp. 93-100.
Schnellenbach-Held M., Ehmann S., Pfeffer K. (1999). BubbleDeck Design of Biaxial Hollow Slabs. Technische Universität Darmstadt, DACON. 1999. Vol. 14. Pp. 145-152.
Prof. Kleinman. (1999). BubbleDeck Report from A+U Research Institute. Eindhoven University of Technology. 1999. Pp. 14-15.
Koning B. (1998). BubbleDeck Test Report. The Netherlands. 1998. Pp. 3-9.
Report of BubbleDeck from Technische Universitaet in Cottbus. 1999. Pp. 10-12.
Report from the Eindhoven University of Technology. Broad comparison of concrete floor systems. 1997. Pp. 13 -14.
BubbleDeck Report from Technical University of Denmark. 2003. Pp. 9-11.
Report from Adviesbureau Peutz & Associes b.v. Comparison of BubbleDeck vs. Hollow core. Netherlands. 1997. Pp. 5-11.
Optimising of Concrete Constructions. The Engineering School in Horsens/Denmark. 2000. Pp. 18-19
Centre for Civil Engineering Research and Codes (CUR), Recommendation 86. Pp. 4-12
Schnellenbach-Held M., Denk H. (1999). BubbleDeck Time-Dependent Behaviour, Local Punching Additional Experimental Tests. Technische Universität Darmstadt, DACON. 1999. Vol. 14. Pp. 137-144
Schnellenbach-Held M., Pfeffer K. (2001). Tragverhalten zweiachsiger Hohlkörperdecken. Beton-und Stahlbetonbau. 2001. Vol. 96. Issue 9. Pp. 573-578.
Pfeffer K. (2002). Untersuchung zum Biege-und Durchstanztragverhalten von zweiachsigen Hohlkörperdecken. Fortschritt-Berichte VDI, VDI-Verlag, Düsseldorf. 2002. Pp. 144-150.
Punching Shear Strength of BubbleDeck. The Technical University of Denmark. 2002. Pp. 5-8.
Aldejohann M., Schnellenbach-Held M. (2003). BubbleDeck Test report from University of Darmstad., 2003. Pp. 3-7.
Schnellenbach-Held M., Pfeffer K. (2002). Punching behavior of biaxial hollow slabs. Cement and Concrete Composites. 2002. Vol. 24. Issue 6. Pp. 551-556.
Professor Nielsen M. P. (1993). BubbleDeck Report from AEC Consulting Engineers Ltd. The Technical University of Denmark. 1993. Pp. 4-5.
Самохвалова Е. О., Иванов А. Д. Стык колонны с безбалочным бескапительным перекрытием в монолитном здании//Инженерно-строительный журнал. 2009. №3(5). С. 33-37
Ватин Н. И., Иванов А. Д. Сопряжение колонны и безребристой беcкапительной плиты перекрытия монолитного железобетонного каркасного здания. Изд-во СПбОДЗПП, 2006. 83 с.
Клованич С.Ф., Шеховцов В.И. Продавливание железобетонных плит. Натурный и численный эксперименты. Изд-во ОНМУ, 2011. 119 с.
Филатов В. Б. Силовое сопротивление железобетонных монолитных плоских плит перекрытий при продавливании колоннами прямоугольного сечения//Самарский научный центр РАН. 2012. №4(5). С. 1322-1324.
Chung J.H., Choi H.K., Lee S.C. et. al. (2011). Shear Capacity of Biaxial Hollow Slab with Donut Type Hollow Sphere. Procedia Engineering. 2011. Vol. 14. Pp. 2219-2222.
FIB. Punching of Structural Concrete Slabs. FIB Bulletin. Lausanne, Switzerland. 2001. Vol. 12. Pp. 307
Polak M. A. (2005). Punching Shear in Reinforced Concrete Slabs. American Concrete Institute, Farmington Hills, MI. 2005. Pp. 302
Kinnunen S., Nylander H. (1960). Punching of Concrete Slabs Without Shear Reinforcement. Transactions of the Royal Institute of Technology, Stockholm, Sweden. 1960. Vol. 158. Pp. 112
Alexander S. D. B., Hawkins N. M. (2005) A Design Perspective on Punching Shear. American Concrete Institute, Farmington Hills, MI. 2005. Pp. 97-108.
Hallgren M. (1996) Punching Shear Capacity of Reinforced High Strength Concrete Slabs. Royal Institute of Technology, Stockholm, Sweden. 1996. 206 p.
Broms C. E. (2006) Concrete Flat Slabs and Footings: Design Method for Punching and Detailing for Ductility. Royal Institute of Technology, Stockholm, Sweden. 2006. 114 p.
Muttoni A., Schwartz J. (1991). Behaviour of Beams and Punching in Slabs without Shear Reinforcement. IABSE Colloquium, Zurich, Switzerland. 1991. Vol. 62. Pp. 703-708.
Жуков В.В., Молчадский И.С., Лавров В.Н. Расчет пределов огнестойкости безбалочных перекрытий. Издво ФГУ ВНИИПО МЧС России. 2006. №1. С. 36-41.
Nasvik J. (2011). On the bubble: Placing concrete around plastic voids increases efficiency and reduces costs. Concrete Construction -World of Concrete. 2011. Vol. 56. Issue12. Pp. 20-22
BubbleDeck, The Lightweight Biaxial Slab [web source] URL: http://www.bubbledeck.com/download/BubbleDeck_Presentation.pdf (date of reference: 28.09.2013)
BubbleDeck Test report from University of Darmstadt by Markus Aldejohann and Martina Schnellenbach-Held, 2002. Pp. 3-6
TNO-Report for 230 mm BubbleDeck. Fire-safe in 120 minutes. The Netherlands. 1999. 11 p.
Aguado J.V., Espinos A. et. al. (2012). Romero. Influence of reinforcement arrangement in flexural fire behavior of hollow core slabs. Fire Safety Journal. 2012. Vol. 53. Pp. 72-84.
German Test Certificate Number P-SAC 02/IV-065 according to DIN 4102-2 concerning BubbleDeck slabs. 2001. 6 p.
BubbleDeck Test Report from Ian Sharland Ltd. Airborne and Impact Sound Insulation. 2005. 6 p.
BubbleDeck Test Report from Adviesbureau Peutz & Associes b.v. Sound Resistance. 2004. 5 p.
Report on building systems in relation to seismic behaviour. 2005. 6 p.
Adlparvar M.R., et al. (2006). Investigation of seismic behaviour of hollow-core slabs by various methods. University Tehran South Unit. 2006. 13 p.
Harding P. (2004). BubbleDeck -Advanced Structure Engineering. BubbleDeck article. 2004. Pp. 4-7.
Gartner E. (2004) Industrially interesting approaches to "low-CO2" cements. Cement and Concrete Research. 2004. Vol. 34(9). Pp. 1489-1498.
Worrell E., et al. (2001). Carbon dioxide emissions from the global cement industry. Annual Review of Energy and the Environment. 2001. Vol. 26. Pp. 303-329.
Guimaraes C. P. (2007). The CO2 uptake of concrete in 100 year perspective. Cement and Concrete Research. 2007. Vol. 37. Pp. 1348-1356.
Van Oss H. G., Padovani A. C. Cement manufacture and the environment, Part II: Environmental challenges and opportunities. 2003. Vol. 7. Pp. 93-126.
Efficient use of energy utilizing high technology: An assessment of energy use in industry and building. World Energy Council: London. 1995. Pp. 12-20.
Klein D. Report from American Society of Civil Engineers. Structural engineers, sustainability and LEED. 2007. p. [web source] URL: http://content.asce.org/files/pdf/SEICongressStructuralengineersandLEED07Apr29.pdf (date of reference: 10.10.2013)
Read J., Read Ch. (2007). BubbleDeck LEED points in North America. 2007. 35 p.
Klein D. (2007). Report from American Society of Civil Engineers. Structural engineers, sustainability and LEED. 2007. p. 39 [web source] URL:http://content.asce.org/files/pdf/SEICongressStructuralengineersandLEED07Apr29.pdf (date of reference: 10.10.2013)
Frey H., Kuhn V., Lindau D. et. al. (2012). Bautechnik nach Lernfeldern Gesamtband. Formeln und Tabellen. 2012. 91 p.
Reports from European Concrete Platform. Concrete for energy-efficient buildings -The benefits of thermal mass. 2008. Pp. 24-29
Bjarne W. Ol, Liedelt D. F. (2007). Cooling and heating of buildings by activating their thermal mass with embedded hydronic pipe systems. Technical University of Denmark. 2007. Pp. 13-18
Article from Concretethinkerz. Radiant Floors. [web source] URL: http://www.concretethinker.com/Papers.aspx?DocId=8 (date of reference: 10.10.2013)
Bjarne W. Ol. (1998). Radiant heating and cooling by embedded water-based systems. Technical University of Denmark. 1998. Pp. 8-11 [web source] URL: http://www.ashrae.org.sg/Olesen-radiant heating and cooling.pdf (date of reference: 10.10.2013)
Damtoft J. S. (2006). Thermal advantages of concrete -a European study. Report from Teknologisk Institut, 2006. 13 Pp. [web source] URL: http://www.teknologisk.dk/_root/media/22766_14_Bedre termisk komfort med beton_JSD.pdf (date of reference: 10.10.2013)
Khairuddin A., Ghasemi M., Fermer. M. (2010). مقایهس سرر ب وی صوص خیتا کن کدا ب فوجم ياه لادی ياه لاد ه ب تب س ن مجن پ,ر پو تین لم هرگ ن کی سدن همی 4.pP.0102.narI,dahhsaM.نارمع-5 (in Persian).
Perth Precast BubbleDeck promises to cut cost and construction time [web source] URL: http://www.perthprecast.com.au/products/bubble-deck (date of reference: 10.10.2013)
Ceilings -walls -facades [web source] URL: http://nemetschek-engineering.com/english/solutions/allplan_precast/ceiling-walls-facades.php (date of reference: 10.10.2013)
CobiaxUSA [web source] URL: http://www.cobiaxusa.com/Cobiax_Voided_Flat_Slab_Products.html (date of reference: 10.10.2013)
Công nghệ sàn rỗng bubble deck [web source] URL: http://xaydung360.vn/diendan/thread/cong-nghe-san-rong-bubble-deck-3116-1-1.html (date of reference: 10.10.2013)
Daliform group [web source] URL: http://ru.daliform.com/productsru/construction-division/systems-for-lightening-slabs/u-boot-beton-photo-gallery.php (date of reference: 10.10.2013)
The Curve by Oever Zaaijer [web source] URL: http://www.aasarchitecture.com/2013/07/The-Curve-Oever-Zaaijer.html (date of reference: 10.10.2013)
LaBahn Arena [web source] URL: http://www.cpd.fpm.wisc.edu/LaBahn-Arena.htm (date of reference: 10.10.2013)
BubbleDeck Eliminates Dead Weight Concrete on University Project [web source] URL: http://www.forconstructionpros.com/article/10415905/bubbledeck-technology-eliminates-dead-weight-concrete-on-university-project (date of reference: 10.10.2013)
Andrea Sammut. Saving on cost, time, space. [web source] URL: http://www.timesofmalta.com/articles/view/20100509/environment/saving-on-cost-time-space.306427 (date of reference: 10.10.2013).

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