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      국내 도석 광물의 물리화학적 물성 및 도자기 원료로서 소결 특성 평가 = Physicochemical properties and sintering behavior of pottery stone as a raw material in porcelain products

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      https://www.riss.kr/link?id=A106421545

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

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      Physicochemical properties and sintering characteristics of pottery stone (Taebaek, Haenam, Aphae, Haengnam) were evaluated as a raw material for porcelain products. Due to acid leaching procedure, the concentration of iron oxide ($Fe_2O_3$) was decreased to < 1.0 wt%, which affects the whiteness of sintered samples. Mean particle size of acid leached samples is $5.7{\sim}10{\mu}m$ with narrow particle size distribution (PSD), which is lower than that of the pristine ($8{\sim}18{\mu}m$) with broad PSD. According to phase analysis by X-ray diffraction, most of pottery stones (PS) have Quartz phase as a main phase with Pyrophyllite as a second phase, however, Haenam PS shows halloysite phase. The absorption rate was in order of Taebaek (A, B, C)~Aphae (A, B) < Taebaek (Special A) < Haengnam < Haenam, and the samples sintered in reductive atmosphere showed lower absorption rate. This result might be due to the concentration of feldspar contained in PS, working as a flux in sintering process. Comparing the color of the sintered samples, the whiteness of refined PS (Taebaek special A, Haenam, Hangnam) is higher than acid leached PS (Taebaek A/B/C, Aphae A/B). The whiteness (L*) for refined PS is 95~97 %, which is higher than acid leached (82~96 %). This might be due to lower iron oxide concentration of the refined PS (0.11~0.58 %) than those of the acid leached PS (0.41~1.91 %) even though most of iron oxide was removed by acid leaching.
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      Physicochemical properties and sintering characteristics of pottery stone (Taebaek, Haenam, Aphae, Haengnam) were evaluated as a raw material for porcelain products. Due to acid leaching procedure, the concentration of iron oxide ($Fe_2O_3$) was decre...

      Physicochemical properties and sintering characteristics of pottery stone (Taebaek, Haenam, Aphae, Haengnam) were evaluated as a raw material for porcelain products. Due to acid leaching procedure, the concentration of iron oxide ($Fe_2O_3$) was decreased to < 1.0 wt%, which affects the whiteness of sintered samples. Mean particle size of acid leached samples is $5.7{\sim}10{\mu}m$ with narrow particle size distribution (PSD), which is lower than that of the pristine ($8{\sim}18{\mu}m$) with broad PSD. According to phase analysis by X-ray diffraction, most of pottery stones (PS) have Quartz phase as a main phase with Pyrophyllite as a second phase, however, Haenam PS shows halloysite phase. The absorption rate was in order of Taebaek (A, B, C)~Aphae (A, B) < Taebaek (Special A) < Haengnam < Haenam, and the samples sintered in reductive atmosphere showed lower absorption rate. This result might be due to the concentration of feldspar contained in PS, working as a flux in sintering process. Comparing the color of the sintered samples, the whiteness of refined PS (Taebaek special A, Haenam, Hangnam) is higher than acid leached PS (Taebaek A/B/C, Aphae A/B). The whiteness (L*) for refined PS is 95~97 %, which is higher than acid leached (82~96 %). This might be due to lower iron oxide concentration of the refined PS (0.11~0.58 %) than those of the acid leached PS (0.41~1.91 %) even though most of iron oxide was removed by acid leaching.

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      참고문헌 (Reference)

      1 W.M. Carty, "Porcelain-raw materials, processing, phase evolution, and mechanical behavior" 81 : 3-, 1998

      2 A.W. Rose, "Geochemistry of hydrothermal ore deposits" Wiley & Sons 173-, 1979

      3 C. Meyer, "Geochemistry of hydrothermal ore deposits" Rinehart and Winston 166-, 1967

      4 H.C. Helgeson, "Feldspars" Manchester university press 184-, 1974

      5 M.-K. Kim, "Development of Traditional Porcelain Materials" Korea Institute of Ceramic Engineering and Technology 1998

      6 D. Rhodes, "Clay and glazes for the potter" Chilton 1957

      7 H.S. Moon, "Clay Mineralogy" Min Eum Sa 1996

      8 J.W. Montoya, "Activity relations and stabilities in alkali feldspar and mica alteration reactions" 70 : 577-, 1975

      1 W.M. Carty, "Porcelain-raw materials, processing, phase evolution, and mechanical behavior" 81 : 3-, 1998

      2 A.W. Rose, "Geochemistry of hydrothermal ore deposits" Wiley & Sons 173-, 1979

      3 C. Meyer, "Geochemistry of hydrothermal ore deposits" Rinehart and Winston 166-, 1967

      4 H.C. Helgeson, "Feldspars" Manchester university press 184-, 1974

      5 M.-K. Kim, "Development of Traditional Porcelain Materials" Korea Institute of Ceramic Engineering and Technology 1998

      6 D. Rhodes, "Clay and glazes for the potter" Chilton 1957

      7 H.S. Moon, "Clay Mineralogy" Min Eum Sa 1996

      8 J.W. Montoya, "Activity relations and stabilities in alkali feldspar and mica alteration reactions" 70 : 577-, 1975

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