Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization
In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax casting process, after crushing and milling steps, was used and evaluated as an alternative raw material source for the production of cellular ceramics for high temperature applications (> 1400 °C). The obtained ceramic shell powder, with particle size distribution (d50 < 2 µm) suitable for the production of ceramic foams, was characterized from the point of view of their physical, chemical, morphological and crystallographic properties. Samples were prepared and obtained by direct foaming and gelcasting routes, dried at room temperature and then fired in two steps (650 °C/2 h and 1550 °C/2 h), and cooled in the furnace to room temperature. The effects of solids loading (35 and 42 vol. %) and stirring velocity (500 and 2000 rpm) on the cellular structure (pore size distribution and porosity) and mechanical properties of the produced ceramic shell foam samples were evaluated. The results showed that it is possible to obtain ceramic foams based on mullite-zirconite, with pore sizes between 100 and 900 µm, porosities up to 77% and compressive strength varying from 3 to 20 MPa.
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ABM, ABC, ABPol
2017
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oai:scielo:S1516-143920170008005492018-04-12Cellular Ceramics Produced from Ceramic Shell: Processing and CharacterizationStochero,Naiane PaivaMoraes,Elisângela Guzi deOliveira,Antonio Pedro Novaes de Cellular ceramics ceramic shell wastes porous materials In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax casting process, after crushing and milling steps, was used and evaluated as an alternative raw material source for the production of cellular ceramics for high temperature applications (> 1400 °C). The obtained ceramic shell powder, with particle size distribution (d50 < 2 µm) suitable for the production of ceramic foams, was characterized from the point of view of their physical, chemical, morphological and crystallographic properties. Samples were prepared and obtained by direct foaming and gelcasting routes, dried at room temperature and then fired in two steps (650 °C/2 h and 1550 °C/2 h), and cooled in the furnace to room temperature. The effects of solids loading (35 and 42 vol. %) and stirring velocity (500 and 2000 rpm) on the cellular structure (pore size distribution and porosity) and mechanical properties of the produced ceramic shell foam samples were evaluated. The results showed that it is possible to obtain ceramic foams based on mullite-zirconite, with pore sizes between 100 and 900 µm, porosities up to 77% and compressive strength varying from 3 to 20 MPa.info:eu-repo/semantics/openAccessABM, ABC, ABPolMaterials Research v.20 suppl.2 20172017-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000800549en10.1590/1980-5373-mr-2016-1093 |
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Stochero,Naiane Paiva Moraes,Elisângela Guzi de Oliveira,Antonio Pedro Novaes de |
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Stochero,Naiane Paiva Moraes,Elisângela Guzi de Oliveira,Antonio Pedro Novaes de Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
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Stochero,Naiane Paiva Moraes,Elisângela Guzi de Oliveira,Antonio Pedro Novaes de |
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Stochero,Naiane Paiva |
| title |
Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
| title_short |
Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
| title_full |
Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
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Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
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Cellular Ceramics Produced from Ceramic Shell: Processing and Characterization |
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cellular ceramics produced from ceramic shell: processing and characterization |
| description |
In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax casting process, after crushing and milling steps, was used and evaluated as an alternative raw material source for the production of cellular ceramics for high temperature applications (> 1400 °C). The obtained ceramic shell powder, with particle size distribution (d50 < 2 µm) suitable for the production of ceramic foams, was characterized from the point of view of their physical, chemical, morphological and crystallographic properties. Samples were prepared and obtained by direct foaming and gelcasting routes, dried at room temperature and then fired in two steps (650 °C/2 h and 1550 °C/2 h), and cooled in the furnace to room temperature. The effects of solids loading (35 and 42 vol. %) and stirring velocity (500 and 2000 rpm) on the cellular structure (pore size distribution and porosity) and mechanical properties of the produced ceramic shell foam samples were evaluated. The results showed that it is possible to obtain ceramic foams based on mullite-zirconite, with pore sizes between 100 and 900 µm, porosities up to 77% and compressive strength varying from 3 to 20 MPa. |
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ABM, ABC, ABPol |
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2017 |
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http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000800549 |
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AT stocheronaianepaiva cellularceramicsproducedfromceramicshellprocessingandcharacterization AT moraeselisangelaguzide cellularceramicsproducedfromceramicshellprocessingandcharacterization AT oliveiraantoniopedronovaesde cellularceramicsproducedfromceramicshellprocessingandcharacterization |
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