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Supercritical carbonation of lime based sustainable structural ceramics
P. Purnell
*
, E. Farahi, N.R. Short
*
Corresponding author for this work
Engineering Systems & Supply Chain Management
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Keyphrases
Flexural Strength
100%
Structural Ceramics
100%
Supercritical Carbonation
100%
Industrial By-products
100%
Carbonate
50%
Porosity
50%
Hydroxide
50%
Recombination
50%
Life Cycle Assessment
50%
Carbon Dioxide
50%
Vacuum Dewatering
50%
Cementation
50%
Embodied Carbon Emissions
50%
Strength Improvement
50%
Compression Molding
50%
Heat Curing
50%
Industrial Lime
50%
Supercritical Carbon Dioxide
50%
Engineering
Bending Strength
100%
Carbonation
100%
Porosity
50%
Life Cycle Assessment
50%
Embodied Carbon
50%
Supercritical Carbon Dioxide
50%
Strength Improvement
50%
Compression Molding
50%
Material Science
Carbon Dioxide
100%
Structural Ceramics
100%
Flexural Strength
66%
Compression Molding
33%
Chemical Engineering
Carbon Dioxide
100%
Dewatering
33%
Hydrated Lime
33%
Calcium Carbonate
33%