Abstract:
Geopolymer is cement-less concrete system
expected to minimize the detrimental effects of Ordinary
Portland Cement (OPC) production to the environment, while
facilitating the eco-friendly utilization of coal by-products. This
research aims to investigate in to the development of Coal Fired
Boiler Ash (Bottom Ash) based geopolymer in terms of
optimizing its methods of synthesis, leading to an economically
viable and sustainable end product. In this regard, strength and
durability properties of the geopolymer have been explored and
Bottom Ash based geopolymer was identified to possess excellent
compressive strength characteristics on curing for a period of 6
hours or longer at 75°C curing temperature, with satisfactory
flexural strengths varying in the range of 5.1-5.7N/mm2. The
shrinkage characteristics of the geopolymer were 5-7 times the
specified limits for OPC concrete, with the overall density values
lying below the conventional concrete density at 1760-1930 kg/m3.
This led to a specification being derived as per the requirements
of SLS 855 standard, with Bottom Ash based geopolymer as a
replacement for cement blocks.
Citation:
D. M. S. P. Dassanayake and S. M. A. Nanayakkara, "Development of Geopolymer with Coal Fired Boiler Ash," 2018 Moratuwa Engineering Research Conference (MERCon), 2018, pp. 356-361, doi: 10.1109/MERCon.2018.8421910.