Once almost worthless, 300,000 tonnes of a slag material called SiGS may now be turned into a valuable building material.
Photo courtesy of Eramet.
The addition of slag has been shown to reduce greenhouse gas emissions from concrete manufacture by more than 95 per cent. Researchers have now discovered that the concrete delivers.
“In our tests, we’ve replaced up to 40 per cent of the cement normally used in concrete”, says Senior Researcher Per Anders Eidem at SINTEF Helgeland, located north in Norway.
By using a finely-powdered slag as a binder additive, researchers have achieved significant reductions in the climate footprint of concrete.
The method has resulted in up to a 95 per cent reduction in greenhouse gas emissions, compared with the use of traditional cement. Eight per cent of global greenhouse gas emissions are derived from concrete manufacture.
“Cement manufacturers acknowledge that there is a need to do something about the climate footprint of their product, and thus also to make concrete more sustainable”, says Eidem.
From industrial fill to a sustainable additive
Per Anders Eidem is conducting research into concretes in which a major part of the traditional cement binder is replaced by a slag material called Silica Green Stone, or SiGS. The project is called VALSiGS. SiGS is a slag waste resulting from the manufacture of silciomanganese, which is a key component in steel production.
“The SiGS slag is a by-product, traditionally used as an industrial fill, and manganese manufacturers Eramet needed to find an alternative use for the material”, says Eidem.
“Adding such by-products to concrete is just one of a number of initiatives that the cement manufacturers are trying out in order to address their climate footprint”, says Eidem. “Another has been the use of flue ash derived from coal-fired power stations, but access to this material is now becoming more restricted, and it’s unlikely that much more will become available”, he explains.
Slag from iron smelting is another by-product that is used in cement.
“The SiGS slag that we’re studying now has some similar properties to that which we derive from the production of iron in blast furnaces”, says Eidem. “When ground down to a fine powder, the slag takes on binding properties that enable it to react and replace some of the cement component”, he explains.
In order to conduct tests on the SiGS slag, SINTEF and Eramet have joined forces with concrete paving specialists Aaltvedt Betong and prefabricated slab manufacturers Block Berge Bygg.
“We ground down the slag in order to find out how it would behave as a cement substitute”, explains Eidem. “Eramet cooled down the SiGS and ground it down to the same particle size as the cement. Then they made both a dry concrete mixture, similar to that used to cast paving stones, and a wet mixture, such as that used in building constructions”, he says.
Strong enough
“In both cases, we obtained very good results”, says Eidem, referring to strength measurements made on the concrete mixes. The researchers performed their tests after 28 days, which is the standard period for concrete strength tests.
The concrete increases in strength as it ages, far beyond the 28-day period. At present, the researchers’ conclusion is that the ‘SiGS concrete’ is strong enough to be used for the same purposes as concrete containing pure cement without any slag additives.
“Its early strength is lower, but after 28 days this increases so that it becomes just as strong as so-called environmental cement – at least, in the case of the dry concrete mixture”, says Eidem.
The results were good, even with as much as 40 per cent of the cement replaced by SiGS. However, in the next stage of the project, when the SiGS cement will be tested at a larger scale, it is likely that a smaller proportion of the SiGS slag will be incorporated into the mixtures than in the initial experiments.
Ninety-five percent emissions reduction
The degree to which SiGS cement mixtures can be described as more climate-friendly than pure cements depends on many factors, including how the electricity used in their production is generated. However, a first estimate indicates that the carbon footprint of pure cement is between 20 and 25 times greater than for SiGS mixtures. In other words, the use of SiGS can result in a 95 per cent reduction in greenhouse gas emissions, compared with traditional cement.
“SiGS offers significant benefits”, says Eidem.
SiGS and binding agents from other suppliers are now going to be tested as part of some major pilot projects. “This will be carried out as part of an overall project designed to develop more climate- and eco-friendly roads”, says Christian John Engelsen, who is a Chief Research Scientist at SINTEF Community.
“The slag will undergo further testing with a view to establishing sustainability in both the supply chain and materials use linked to roadside constructions”, says Engelsen.
Original Article: Slag to replace cement in concrete? Yes, please!
More from: SINTEF | Norwegian University of Science and Technology
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