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The EnWood Floors Journal is the monthly newsletter of EnWood Floors and GYMS Pte Ltd. We bring you the latest news in the construction, real estate and interior design world.
Monday, October 11, 2010
Construction Technology
New Advances in Concrete Technology
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| Picture courtesy of observatorynano.eu |
Over the past decade, there have been numerous advances in building technology, especially in the area of materials engineering. One key focus of materials engineering is the production of concrete with better structural qualities than that of previous generations.
The current generation of high-performance concrete (HPC) today surpasses the quality of traditional concrete by a mile, with many significant advantages and little or no disadvantages.
High performance concrete usually contains recycled materials and thereby reduces the need to dispose of these materials. Some of these materials include fly ash (waste by-product from coal burning), ground granulated blast furnace slag, and silica fume. But perhaps the biggest benefit of using some of these other materials is the reduction in the need to use cement, also commonly referred to as Portland cement. The reduction in the production and use of cement will have many beneficial effects. These benefits will include a reduction in the creation of carbon dioxide emissions and a reduction in energy consumption, both of which will improve the global warming situation. It is estimated that the production of cement worldwide contributes five to eight percent of global carbon dioxide emissions. In addition, the use of fly ash and furnace slag is usually cheaper than cement and they have properties that improve the quality of the final concrete.
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| Picture courtesy of caer.uky.edu |
Today’s new concrete technology has produced new types of concrete that have live spans measured in the hundreds of years rather than decades. The use of fly ash and other by-product materials will save many hundreds of thousands of acres of land that would have been used for disposal purposes. Fly ash and other by-products from burning coal, are some of the most abundant industrial waste by-products on the planet.
The elimination of burial sites for these waste by-products will translate into less risk of contamination of surface and underground water supplies. When compared to standard concrete the new concretes have better corrosion resistance, equal or higher compressive and tensile strengths, higher fire resistance, and rapid curing and strength gain. In addition, the production and life cycle of these new concretes will reduce greenhouse gas emissions by as much as 90%.
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