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    Sustainable concrete construction - From recycled demolition aggregate to alkali activated binders

    New search for: Soutsos, M.
    New search for: Vinai, R.
    New search for: Boyle, A.
    New search for: Tang, K.
    New search for: Fulton, M.

    Investigations into the economics, practicalities and technicalities of using recycled demolition aggregate in concrete precast products started in 2001. At that time, there were six demolition contractors around Liverpool and they were using mobile crushers which were suited for road subbase material but not for the smaller sized aggregate required for precast concrete products. It was estimated that if all six worked round the clock, i.e. assuming there was enough feed material, they would still have found it difficult to maintain the required supplies for a single precast factory. Investment in equipment was therefore required to guarantee supply and improve the quality of the recycled demolition aggregate. The market forces and the incentives/drivers for construction companies to adopt sustainable practises have encouraged investment of several million pounds to be made in new recycling plants and this has resulted in "urban quarries". Work on reducing the carbon footprint of concrete construction needs to consider not only the replacement of the aggregate with recycled ones but also to consider a reduction or complete replacement of Portland cement in concrete mixes. Alkali activated binders and geopolymers have seen applications in ceramics, hazardous waste containment, fire-resistant construction materials and refractories but the most interesting application is their use to replace Portland cement-based concretes. Several factors affecting the reactivity of fly ash as a precursor for geopolymer concrete have been investigated. These include physical and chemical properties of various fly ash sources, inclusion of ground granulated blast furnace slag (ggbs), chemical activator dosages and curing temperature. Alkali-activated fly ash was found to require elevated curing temperatures and high alkali concentrations. A mixture of sodium hydroxide and sodium silicate was used and this was shown to result in high strengths, as high as 70 MPa at 28 days. The partial replacement of fly ash with ground granulated ...

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    Sustainable concrete construction - From recycled demolition aggregate to alkali activated binders

    New search for: Soutsos, M.
    New search for: Vinai, R.
    New search for: Boyle, A.
    New search for: Tang, K.
    New search for: Fulton, M.

    Investigations into the economics, practicalities and technicalities of using recycled demolition aggregate in concrete precast products started in 2001. At that time, there were six demolition contractors around Liverpool and they were using mobile crushers which were suited for road subbase material but not for the smaller sized aggregate required for precast concrete products. It was estimated that if all six worked round the clock, i.e. assuming there was enough feed material, they would still have found it difficult to maintain the required supplies for a single precast factory. Investment in equipment was therefore required to guarantee supply and improve the quality of the recycled demolition aggregate. The market forces and the incentives/drivers for construction companies to adopt sustainable practises have encouraged investment of several million pounds to be made in new recycling plants and this has resulted in "urban quarries". Work on reducing the carbon footprint of concrete construction needs to consider not only the replacement of the aggregate with recycled ones but also to consider a reduction or complete replacement of Portland cement in concrete mixes. Alkali activated binders and geopolymers have seen applications in ceramics, hazardous waste containment, fire-resistant construction materials and refractories but the most interesting application is their use to replace Portland cement-based concretes. Several factors affecting the reactivity of fly ash as a precursor for geopolymer concrete have been investigated. These include physical and chemical properties of various fly ash sources, inclusion of ground granulated blast furnace slag (ggbs), chemical activator dosages and curing temperature. Alkali-activated fly ash was found to require elevated curing temperatures and high alkali concentrations. A mixture of sodium hydroxide and sodium silicate was used and this was shown to result in high strengths, as high as 70 MPa at 28 days. The partial replacement of fly ash with ground granulated ...

    Access

    Download

    Sustainable concrete construction - From recycled demolition aggregate to alkali activated binders

    New search for: Soutsos, M.
    New search for: Vinai, R.
    New search for: Boyle, A.
    New search for: Tang, K.
    New search for: Fulton, M.

    Investigations into the economics, practicalities and technicalities of using recycled demolition aggregate in concrete precast products started in 2001. At that time, there were six demolition contractors around Liverpool and they were using mobile crushers which were suited for road subbase material but not for the smaller sized aggregate required for precast concrete products. It was estimated that if all six worked round the clock, i.e. assuming there was enough feed material, they would still have found it difficult to maintain the required supplies for a single precast factory. Investment in equipment was therefore required to guarantee supply and improve the quality of the recycled demolition aggregate. The market forces and the incentives/drivers for construction companies to adopt sustainable practises have encouraged investment of several million pounds to be made in new recycling plants and this has resulted in "urban quarries". Work on reducing the carbon footprint of concrete construction needs to consider not only the replacement of the aggregate with recycled ones but also to consider a reduction or complete replacement of Portland cement in concrete mixes. Alkali activated binders and geopolymers have seen applications in ceramics, hazardous waste containment, fire-resistant construction materials and refractories but the most interesting application is their use to replace Portland cement-based concretes. Several factors affecting the reactivity of fly ash as a precursor for geopolymer concrete have been investigated. These include physical and chemical properties of various fly ash sources, inclusion of ground granulated blast furnace slag (ggbs), chemical activator dosages and curing temperature. Alkali-activated fly ash was found to require elevated curing temperatures and high alkali concentrations. A mixture of sodium hydroxide and sodium silicate was used and this was shown to result in high strengths, as high as 70 MPa at 28 days. The partial replacement of fly ash with ground granulated ...

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    Title:

    Sustainable concrete construction - From recycled demolition aggregate to alkali activated binders

    Contributors:

    Soutsos, M. (author) / Vinai, R. (author) / Boyle, A. (author) / Tang, K. (author) / Fulton, M. (author)

    Publication date:

    2018-11-15

    Remarks:

    Soutsos , M , Vinai , R , Boyle , A , Tang , K & Fulton , M 2018 , Sustainable concrete construction - From recycled demolition aggregate to alkali activated binders . in 14th International Conference on Concrete Engineering and Technology, CONCET 2018; Kuala Lumpur; Malaysia; 8 August 2018 through 9 August 2018: Proceedings . 2 edn , vol. 431 , IOP Conference Series: Materials Science and Engineering , IOP Publishing Ltd , 14th International Conference on Concrete Engineering and Technology, CONCET 2018 , Kuala Lumpur , Malaysia , 08/08/2018 . https://doi.org/10.1088/1757-899X/431/2/022002

    DOI:

    https://doi.org/10.1088/1757-899X/431/2/022002

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    /dk/atira/pure/subjectarea/asjc/2500/2500 , name=General Materials Science , /dk/atira/pure/subjectarea/asjc/2200/2200 , name=General Engineering , /dk/atira/pure/sustainabledevelopmentgoals/sustainable_cities_and_communities , name=SDG 11 - Sustainable Cities and Communities , /dk/atira/pure/sustainabledevelopmentgoals/responsible_consumption_and_production , name=SDG 12 - Responsible Consumption and Production , /dk/atira/pure/sustainabledevelopmentgoals/climate_action , name=SDG 13 - Climate Action

    Classification:

    DDC:  624

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