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      합성 및 원료 조건에 따른 &#947;-C<sub>2</sub>S의 순도 = Purity of &#947;-Dicalcium Silicate with Synthetic and Raw Materials Conditions

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      https://www.riss.kr/link?id=A106826711

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      γ-dicalcium silicate(γ-C<sub>2</sub>S) is known as a polymorphism of belite. Due to its high CO<sub>2</sub> fixing capacity and the production process with low CO<sub>2</sub> emission, γ-C<sub>2</sub>S has attracted more attention of researchers. For the further development of γ-C<sub>2</sub>S applications in construction industry, this study aims to investigate the method for synthesizing high purity of γ-C<sub>2</sub>S. The influence of raw materials and calcination temperatures on the purity of γ-C<sub>2</sub>S was evaluated. Several Ca bearing materials were selected as the calcium source, the materials which's main component is SiO<sub>2</sub> were used as the silicon source. Raw materials were mixed and calcined under different temperatures. The results revealed that the highest purity could be obtained using Ca(OH)<sub>2</sub> and SiO<sub>2</sub> powder as raw materials. In addition, a relatively economic synthesis method using natural mineral materials-limestone and silica sand as raw materials were developed for the practical application. The purity of synthetic γ-C<sub>2</sub>S was recorded up to 77.6%.
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      γ-dicalcium silicate(γ-C<sub>2</sub>S) is known as a polymorphism of belite. Due to its high CO<sub>2</sub> fixing capacity and the production process with low CO<sub>2</sub> emission, γ-C<su...

      γ-dicalcium silicate(γ-C<sub>2</sub>S) is known as a polymorphism of belite. Due to its high CO<sub>2</sub> fixing capacity and the production process with low CO<sub>2</sub> emission, γ-C<sub>2</sub>S has attracted more attention of researchers. For the further development of γ-C<sub>2</sub>S applications in construction industry, this study aims to investigate the method for synthesizing high purity of γ-C<sub>2</sub>S. The influence of raw materials and calcination temperatures on the purity of γ-C<sub>2</sub>S was evaluated. Several Ca bearing materials were selected as the calcium source, the materials which's main component is SiO<sub>2</sub> were used as the silicon source. Raw materials were mixed and calcined under different temperatures. The results revealed that the highest purity could be obtained using Ca(OH)<sub>2</sub> and SiO<sub>2</sub> powder as raw materials. In addition, a relatively economic synthesis method using natural mineral materials-limestone and silica sand as raw materials were developed for the practical application. The purity of synthetic γ-C<sub>2</sub>S was recorded up to 77.6%.

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