Evaluation of the Nature and Concentration of the Surfactant on the Properties of Red Mud/Metakaolin Porous Geopolymers Foamed with Aluminium

Bilici, Senem; Carvalheiras, João; Labrincha, J.A.; Novais, Rui M.

doi:10.3390/ma15217486

Cited by 5 publications

(1 citation statement)

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“…Ordinary Portland cement (OPC) manufacturing now has significant energy and environmental costs. Due to population growth and globalization in recent decades [1], there has been an increase in the demand for housing, which has led to a rapid growth in the use of OPC as a binding material, reaching 6000 million metric tons by the year 2060 [2]. Unfortunately, the manufacture of OPC has become a distressing problem, not only because of the environmental pollution it generates [3] but also because of the enormous energy demand it incurs: 6.67 MJ per ton of clinker [4].…”

Section: Introductionmentioning

confidence: 99%

Geopolymer Made from Kaolin, Diatomite, and Rice Husk Ash for Ceiling Thermal Insulation

Alvarado,

Martínez-Cerna,

Alvarado-Quintana

2023

Buildings

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In this study, geopolymers made of metakaolin (MK), diatomite (D), and rice husk ash (RHA) were developed for ceiling thermal insulation in houses to provide protection against cold temperatures. The influence of the constituent mixing ratio and the temperature of curing on the heat conductivity and compressive strength of the geopolymer was investigated. Specimens were formed according to a 10-level mix design with three replicates and subjected to curing at 40 °C and 80 °C. Heat conductivity and compressive strength were determined in accordance with established standards. The simplex lattice method was used to obtain the response surfaces, contour plots, and tracking curves. The geopolymers under study displayed a reduction in heat conductivity and an increase in compressive strength when the curing temperature was raised. The optimal mixing ratio to achieve a balance between the compressive strength and thermal conductivity of the geopolymers investigated was 0.50 MK and 0.50 RHA. Diatomite’s thermal insulation contribution is neutralized when crystals from the geopolymer gel fill the pore volume. The mixture’s optimal results were achieved when cured at 80 °C, demonstrating a thermal conductivity of 0.10 W/m·K and a compressive strength of 5.37 MPa.

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