Fabrication of pure phase calcium carbonate hardened bodies as a means of creating novel geomimetic ceramics

•Hardened calcium carbonate bodies were produced using a warm press method.•The hardened bodies exhibited high densities and compressive strength.•The added water seemed to promote a solution-precipitation reaction.•Low temperature sintering occurred to form dense calcium carbonate. To date, there h...

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Bibliographic Details
Published in:Construction & building materials 2017-03, Vol.135, p.405-410
Main Authors: Hashimoto, Shinobu, Kusawake, Shohei, Daiko, Yusuke, Honda, Sawao, Iwamoto, Yuji
Format: Article
Language:English
Subjects:
Analysis
Calcium carbonate
Ceramics
Chemical thermodynamics
Compressive strength
Geomimetic ceramics
Hardened body
Mechanical properties
Powders (Particulate matter)
Warm press method
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Summary:•Hardened calcium carbonate bodies were produced using a warm press method.•The hardened bodies exhibited high densities and compressive strength.•The added water seemed to promote a solution-precipitation reaction.•Low temperature sintering occurred to form dense calcium carbonate. To date, there have been few reports of the fabrication of hardened, pure calcium carbonate specimens beginning from the powder state. In this study, hardened calcium carbonate bodies exhibiting high densities and compressive strengths were produced using a warm press method. The warm press conditions consisted of temperatures from 150 to 280°C and a uniaxial pressure of 240MPa, applied for durations of 10–180min to powder compacts composed of pure calcium carbonate powder or powder mixed with 10% water (by mass). Heating at 150°C and 240MPa for 180min with 10% water generated a relative density of 87% and an average compressive strength of 40MPa. The added water was found to play an important role to promote a solution-precipitation process inside the calcium powder compact, allowing low temperature sintering to form dense calcium carbonate.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2016.12.211