Effect of CO2 Flow Rate on the Synthesis Nanosized Precipitated Calcium Carbonate, PCC
Abstract. The precipitated of calcium carbonate has attractedmuch attention because of its numerous applications in various areas of plastics, textiles, rubbers, adhesives, paints and wastewater treatment. Nanosized of precipitated calcium carbonate,(PCC) will enhance the properties and give better...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
Trans Tech Publications
2013
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| Subjects: | |
| Online Access: | http://eprints.utem.edu.my/id/eprint/12433/1/ISQNM_2013.docx http://eprints.utem.edu.my/id/eprint/12433/ |
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| Summary: | Abstract. The precipitated of calcium carbonate has attractedmuch attention because of its numerous applications in various areas of plastics, textiles, rubbers, adhesives, paints and wastewater treatment. Nanosized of precipitated calcium carbonate,(PCC) will enhance the properties and give better performance. Its high purity and close controlled particle size and shape
are making it the white filler of choice. Nanosized precipitated calcium carbonate particles were
prepared using spraying method.
The particles were prepared using three (3) different
concentrations of Calcium Hydroxide,Ca(OH)2, three (3) CO2 flow rate and three (3) different calcinations temperature. The three (3) concentration of Calcium Hydroxide that been used are 25g/200ml, 25g/ 400ml and 25g/800ml and each of these initial solution sprayed at three (3) different CO2 flow rate, 5l/per-minute, 7l/per-minute and 10l/per-minute. Calcium Carbonate,CaCO3 powders were then calcined at three (3) different temperature, 1100°C,1200°C and 1300°C.
Images from SEM showed morphology of the particles changed to spindle-like or prismatic when the ionic strength of the Calcium Hydroxide,Ca(OH)2 was increased. |
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