Se-Hyuk Jung scite author profile

In this paper, the dispersion stability of zirconium diboride (ZrB 2 ) slurries and their anti-oxidation behavior to prevent re-oxidation in the ZrB 2 slurries were studied. SPEX-milled ZrB 2 powder was used to improve the dispersion stability, and the viscosity and zeta potential as a function of pH were measured in order to confirm the dispersion behavior in aqueous ZrB 2 slurries using various additives [polyethylenimine (PEI), polyacrylicacid (PAA), polyvinyl pyrrolidone (PVP), and polyvinyl alcohol (PVA)]. In addition, the oxygen contents were measured before and after processing to evaluate the oxidation behavior in the ZrB 2 slurries. By using 2 wt % PEI, the isoelectric point (IEP) of the ZrB 2 slurry increased from a pH of 5.8 to above a pH of 12. Also, the viscosity was below 6.27 mPa·s in the 20 vol % ZrB 2 slurry at pH values of 212. The oxygen content of the ZrB 2 powders increased from 2.42 to 3.79 wt % after preparing an aqueous slurry, but by using 2 wt % PVP and 2 wt % PEI, the oxygen contents of the 20 vol % ZrB 2 slurry could be reduced from 3.79 to 2.6 and 2.8 wt %, respectively. Consequently, a 50 vol % ZrB 2 slurry with an oxygen content was 2.92 wt % could be prepared in the pH range of 69 using 2 wt % PEI.

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Partial Discharge Measurements of Cryogenic Dielectric Materials in an HTS Transformer Using HFCT

Lee

Jung

Lee

2010

IEEE Trans. Appl. Supercond.

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Effects of particle size and oxygen contents on ZrB₂ powder for densification

Jung¹,

Choi²

2012

Journal of the Korean Crystal Growth and Crystal Technology

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In this study, two pretreatment methods were used to improve the sinterability of zirconium diboride (ZrB 2). As a mechanical treatment, as-received ZrB 2 powder was crushed using SPEX mill from an average size of 2.61 µm to 0.35 µm. As a chemical treatment, oxygen contents of ZrB 2 powder were decreased from 4.20 wt% to 2.22 wt% using a dilute hydrofluoric solution. The relative density of sintered ZrB 2 increased with decreasing particle size and oxygen contents. But it is considered that particle size is more effective than oxygen contents for ZrB 2 densification. Through the two pretreatment processes, we produced sintered ZrB 2 ceramic with a full density without sintering additives. The sinterability of ZrB 2 was improved by using mechanical and chemical pretreatment methods.

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Se-Hyuk Jung

Synthesis of ZrB2 powders by carbothermal and borothermal reduction

Pretreatment of zirconium diboride powder to improve densification

Dispersion stability and anti-oxidation of an aqueous Zirconium Diboride slurry with a high solid loading

Partial Discharge Measurements of Cryogenic Dielectric Materials in an HTS Transformer Using HFCT

Effects of particle size and oxygen contents on ZrB₂ powder for densification

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Se-Hyuk Jung

Synthesis of ZrB2 powders by carbothermal and borothermal reduction

Pretreatment of zirconium diboride powder to improve densification

Dispersion stability and anti-oxidation of an aqueous Zirconium Diboride slurry with a high solid loading

Partial Discharge Measurements of Cryogenic Dielectric Materials in an HTS Transformer Using HFCT

Effects of particle size and oxygen contents on ZrB2 powder for densification

Contact Info

Product

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Effects of particle size and oxygen contents on ZrB₂ powder for densification