词条 | Autoclaved aerated concrete |
释义 |
AAC products may be used for both interior and exterior construction, and may be painted or coated with a stucco or plaster compound to guard against the elements, or covered with siding materials such as veneer brick or vinyl siding. In addition to their quick and easy installation, ACC materials can be routed, sanded, or cut to size on site using standard power tools with carbon steel cutters.[3][4] Other names for the product include autoclaved cellular concrete (ACC), autoclaved lightweight concrete (ALC), autoclaved concrete, cellular concrete, porous concrete, Aircrete, Thermalite, Hebel Block, Starken, and Ytong{{cn|date=July 2018}} HistoryAAC was perfected in the mid-1920s by the Swedish architect and inventor Dr. Johan Axel Eriksson,[5][6] working with Professor Henrik Kreüger at the Royal Institute of Technology.[5][6] The process was patented in 1924. In 1929, production started in Sweden at the city of Yxhult. From "Yxhults Ånghärdade Gasbetong" later became the first registered building materials brand in the world: Ytong. Another brand “Siporex” was established in Sweden in 1939 and presently licences and owns plants in 35 locations around the world. The second major international cellular concrete Hebel brand goes back to company founder and technicians Josef Hebel from Memmingen. In 1943, the first Hebel-plant was opened in Germany. Originally Ytong autoclaved aerated concrete in Sweden was produced with alum shale, whose combustible carbon content was beneficial in the production process. Unfortunately, the slate deposits used for Ytong in Sweden also contain a very low level of natural uranium, which makes the material give off radioactive radon gas in the building. In 1972, the Swedish Radiation Safety Authority pointed out the unsuitability of a radon-emitting construction material, and the use of alum slate in the production of Ytong ceased in 1975. By using new formulations, containing only quartz sand, calcined gypsum, lime (mineral), cement, water and aluminum powder, Ytong produced a new type of aerated concrete which no longer contains alum slate and thus has eliminated the problem of radon exposure from this raw material. The production of this white autoclaved aerated concrete is now state of the art and similar formulations are used by all producers around the world. In 1978 The Swedish team of Siporex Sweden opened the Siporex Factory in the Kingdom of Saudi Arabia - the "Lightweight Construction Company - Siporex - LCC SIPOREX" which have supplied the Middle-East and Africa and Japan by most of its need. The LCC SIPOREX FACTORY has operated for more than 40 years. Today aerated concrete is produced by many companies, particularly in Europe and Asia. There is some production in the Americas and in Africa, there is one plant in Egypt. AAC production in Europe has slowed down considerably, but the industry is growing rapidly in Asia due to strong demand in housing and commercial space. China is now the largest aircrete market in the world with several hundred factories. China, Central Asia, India, and the Middle-East are the biggest in terms of AAC manufacturing and consumption.[7] The product aircrete is sold, like other masonry materials, under many different brand names. Ytong and Hebel are brands of the international operating company Xella headquartered in Duisburg. Other more internationally renowned brand names in Europe are H + H Celcon (Denmark), or Solbet (Poland). UsesAAC is a highly thermally insulating concrete-based material used for both interior and exterior construction. Besides AAC's insulating capability, one of its advantages is quick and easy installation, because the material can be routed, sanded, or cut to size on site using standard power tools with carbon steel cutters.{{cn|date=November 2018}} AAC is well suited for high-rise buildings and those with high temperature variations. Due to its lower density, high-rise buildings constructed using AAC require less steel and concrete for structural members. The mortar needed for laying of AAC blocks is reduced due to the lower number of joints. Similarly, the material required for rendering is also lower due to the dimensional accuracy of AAC. The increased thermal efficiency of AAC makes it suitable for use in areas with extreme temperatures, as it eliminates the need for separate materials for construction and insulation, leading to faster construction and cost savings. Even though regular cement mortar can be used, most of the buildings erected with AAC materials use thin bed mortar in thicknesses around ⅛ inch, depending on the national building codes. AAC materials can be coated with a stucco or plaster compound to guard against the elements, or covered with siding materials such as brick or vinyl. ManufacturingUnlike most other concrete applications, AAC is produced using no aggregate larger than sand. Quartz sand, calcined gypsum, lime (mineral) and/or cement and water are used as a binding agent. Aluminum powder is used at a rate of 0.05%–0.08% by volume (depending on the pre-specified density). In some countries, like India and China, fly ash generated from coal fire power plants and having 50-65% silica content is used as an aggregate. When AAC is mixed and cast in forms, several chemical reactions take place that gives AAC its light weight (20% of the weight of concrete) and thermal properties. Aluminum powder reacts with calcium hydroxide and water to form hydrogen. The hydrogen gas foams and doubles the volume of the raw mix creating gas bubbles up to 3mm (⅛ inch) in diameter. At the end of the foaming process, the hydrogen escapes into the atmosphere and is replaced by air. When the forms are removed from the material, it is solid but still soft. It is then cut into either blocks or panels, and placed in an autoclave chamber for 12 hours. During this steam pressure hardening process, when the temperature reaches 190° Celsius (374° Fahrenheit) and the pressure reaches 8 to 12 bar, quartz sand reacts with calcium hydroxide to form calcium silicate hydrate, which gives AAC its high strength and other unique properties. Because of the relatively low temperature used AAC blocks are not considered fired brick but a lightweight concrete masonry unit. After the autoclaving process, the material is ready for immediate use on the construction site. Depending on its density, up to 80% of the volume of an AAC block is air. AAC's low density also accounts for its low structural compression strength. It can carry loads of up to 8 MPa (1,160 PSI), approximately 50% of the compressive strength of regular concrete. In 1978, the first AAC material was opened in the Persian Gulf state of the Kingdom of Saudi Arabia - LCC SIPOREX- Lightweight Construction Company supplying the GCC countries with the Aerated products of blocks and panels. Since 1980, there has been a worldwide increase in the use of AAC materials. New production plants are being built in Australia, Bahrain, China, Eastern Europe, India[8], and the United States. AAC is increasingly used by developers, architects, and home builders worldwide. AdvantagesAAC has been produced for more than 70 years, and it offers several advantages over other cement construction materials, one of the most important being its lower environmental impact.
DisadvantagesAAC has been produced for more than 70 years, however, some disadvantages were found when it was introduced in the UK (where cavity wall with clay brick two-skin construction has been the norm).
References1. ^{{Cite web|url=https://www.cement.org/cement-concrete-applications/paving/buildings-structures/concrete-homes/building-systems-for-every-need/autoclaved-aerated-concrete|title=Autoclaved Aerated Concrete|website=www.cement.org|language=en|access-date=2018-11-28}} 2. ^{{cite web|url=http://www.aircrete-europe.com/en/aircrete-aac/products-specifications.html|title=Products specifications - AIRCRETE|work=aircrete-europe.com}} 3. ^{{Cite web|url=http://www.indiancementreview.com/News.aspx?nId=JTbWdUj6k4vECxF5gfuorg==|title=Indian Cement Review Magazine {{!}} AAC can bring down construction cost by up to 20percentage|last=A-303|first=ASAPP Info Global Services Pvt Ltd|last2=Estates|first2=Navbharat|access-date=2018-11-28|last3=Road|first3=Zakaria Bunder|last4=Sewri|last5=015|first5=Mumbai-400|last6=Maharashtra|last7=91-22-24193000|first7=India Tel :}} 4. ^{{Cite news|url=https://www.masonrymagazine.com/blog/2008/06/01/using-autoclaved-aerated-concrete-correctly/|title=Using Autoclaved Aerated Concrete Correctly|date=2008-06-01|work=Masonry Magazine|access-date=2018-11-28|language=en-US}} 5. ^1 {{cite web|url=http://www.hebel.co.nz/about/hebel%20history.php |title=Hebel: The History of AAC |accessdate=2010-10-04 |deadurl=bot: unknown |archiveurl=https://web.archive.org/web/20101104001651/http://www.hebel.co.nz/about/hebel%20history.php |archivedate=2010-11-04 |df= }} 6. ^1 [https://archive.is/20120525205251/http://www.byggnadsvard.se/index.php?option=com_content&view=article&id=459:pionjaerinsatser-i-betongens-barndom-konstruktionsbetongens-historia-1890-1950&catid=45:material&Itemid=84 Swedish Association of Historical Buildings: Pioneering work in the early days of concrete - history 1890–1950 (from Byggnadskultur issue 4/2004)] {{sv icon}} 7. ^{{cite web|title=AAC India|url=http://aac-india.com/}} 8. ^{{Cite web|url=http://www.infitechgroup.co.in|title=Home {{!}} Infitech Group|website=Infitech Group|language=en-US|access-date=2018-10-01}} 9. ^{{cite web|title=AAC India - Advantages of using AAC|url=http://aac-india.com/advantages-of-aac-blocks/}} 10. ^{{Cite web |url=http://www.fischer.co.uk/PortalData/10/Resources/support/sales-documents/documents/Aircrete_(V5)_07.06.2012(EmailVersion).pdf |title=Archived copy |access-date=2016-05-15 |archive-url=https://web.archive.org/web/20160604012803/http://www.fischer.co.uk/PortalData/10/Resources/support/sales-documents/documents/Aircrete_(V5)_07.06.2012(EmailVersion).pdf |archive-date=2016-06-04 |dead-url=yes |df= }} External links
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