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Linkage Projects - Grant ID: LP130101016

Title
Linkage Projects - Grant ID: LP130101016
Funding
ARC | Linkage Projects
Contract (GA) number
LP130101016
Start Date
2013/01/01
End Date
2016/12/31
Open Access mandate
no
Organizations
-
More information
http://purl.org/au-research/grants/arc/LP130101016

 

  • Mechanical, thermal insulation, thermal resistance and acoustic absorption properties of geopolymer foam concrete

    Zhang, Z.; Provis, J.L.; Reid, A.; Wang, H. (2015)
    Projects: ARC | Linkage Projects - Grant ID: LP130101016 (LP130101016)
    This study reports the synthesis and characterization of geopolymer foam concrete (GFC). A Class F fly ash with partial slag substitution was used for GFC synthesis by mechanical mixing of preformed foam. The GFCs exhibited 28 d compressive strengths ranging from 3 to 48 MPa with demolded densities from 720 to 1600 kg/m3 (105 °C oven-dried densities from 585 to 1370 kg/m3), with the different densities achieved through alteration of the foam content. The thermal conductivity of GFCs was in th...

    The Pore Characteristics of Geopolymer Foam Concrete and Their Impact on the Compressive Strength and Modulus

    Zhang, Zuhua; Wang, Hao (2016)
    Projects: ARC | Linkage Projects - Grant ID: LP130101016 (LP130101016)
    The pore characteristics of geopolymer foam concretes (GFCs) manufactured in the laboratory with 0–16% foam additions were examined using image analysis (IA) and vacuum water saturation techniques. The pore size distribution, pore shape, and porosity were obtained. The IA method provides a suitable approach to obtain the information of large pores, which are more important in affecting the compressive strength of GFC. By examining the applicability of the existing models of predicting compres...

    Toward an indexing approach to evaluate fly ashes for geopolymer manufacture

    Zhang, Z.; Provis, J.L.; Zou, J.; Reid, A.; Wang, H. (2016)
    Projects: ARC | Linkage Projects - Grant ID: LP130101016 (LP130101016)
    Variations between fly ashes can lead to significant differences in the geopolymers derived from them, in both microstructural and mechanical properties. This study assesses the effect of physical, crystallographic and chemical characteristics of fly ash on geopolymerisation performance and the strength of the resulting binders. Physical and glass chemistry factors are combined to develop a comprehensive index to evaluate the suitability of fly ashes for the production of high-strength geopol...
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