Jong-Hyuk Jung scite author profile

The starting materials were mixture of Kaolin, Silica and Oak tree ash and Fe 2 O 3 were used as coloring agent. In this study Talc was employed for controlling of glaze viscosity and crystallization. To investigate the effects of the formation of niddle shaped spots and properties of Nogime (ÑÚ) Temmoku glazes, different samples were prepared by the contents change of Cao, MgO, Fe 2 O 3 and the different firing conditions. Formation mechanism of the niddle shaped brownish yellow spots of nogime tem moku glazes were determined by using XRD and Micro Raman spectroscopy. The viscosity of glaze were obtained by SiGglass 6.0. The Raman analysis showed that there are mixed crystalline phase of diopside and anorthite, indicating that the small amounts of Fe 2 O 3 were doped on both crystals resulting the yellowish brown color. In this study the viscosity is a main factor at formation mechanism of nogime temmoku crystals. The viscosity of the niddle shaped yellow crystals and the glaze are com pared to confirm the formation mechanism of nogime temmoku glazes. Viscosity showed lower value (1.909) at niddle shaped yellow crystals consist of diopside and anorthite than glaze value (3.247). The crystals of nogime temmoku glazes were formed in vertical direction by the difference of fluidity.

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Development of Body for Temmoku Tea Bowl Using Hwangto

Jung¹,

Lee²

2010

Journal of the Korean Ceramic Society

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Jong-Hyuk Jung

A quasi-solid-state rechargeable lithium–oxygen battery based on a gel polymer electrolyte with an ionic liquid

A Study on the properties and formation mechanism of Nogime Temmoku glazes

Development of Body for Temmoku Tea Bowl Using Hwangto

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