Effect of additives on electrodeposition of zn∑zr oxide composite from dispersed particles-free solution

Yosuke Hara, Daiki Ueda, Satoshi Oue, Hiroaki Nakano

研究成果: ジャーナルへの寄稿記事

抄録

Electrodeposition of ZnZr oxide composite was performed from an unagitated sulfate solution containing Zn2+, Zr ions and additives such as NO3 ions and polyethylene glycol(PEG)at pH 2 and 313 K under galvanostatic conditions, and the effect of additives on the codeposition of Zr oxide and polarization property and micro structure of deposits was investigated. Zr content in deposits obtained at all the current densities increased significantly with addition of 2.0 g・dm3 of NaNO3. ZnZr oxide deposited from the solution containing NaNO3 showed massive structure composed of fine crystals without Zn platelets crystals, and a lot of large cracks occurred between the massive crystals. EDX analysis revealed that Zr codeposited on the massive crystals as fine concavoconvex oxide. The corrosion current density of ZnZr oxide deposited from the solution containing NaNO3 was almost same as that of pure Zn deposits, showing no improvement of corrosion resistance with codeposition of Zr oxide. On the other hand, Zr content in deposits obtained from the solution containing PEG increased significantly with increasing current density above 1000 A・m2. With addition of 1000 mg・dm3 of PEG, the Zn platelets crystals disappeared, and the deposits were composed of fine meshlike crystals with preferred orientation {1010}Zn plane, resulting in smooth surface. The cathodic current density for the reduction of dissolved oxygen on the ZnZr oxide deposited from the solution containing PEG was smaller than that of pure Zn deposits, as a result, the corrosion current density of ZnZr oxide deposits was smaller than that of pure Zn deposits. The increase in Zr content in deposits with NO3 ions and PEG is attributed to acceleration of hydrolysis reaction of Zr ions.

元の言語英語
ページ(範囲)366-371
ページ数6
ジャーナルNippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals
82
発行部数9
DOI
出版物ステータス出版済み - 1 1 2018

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Electrodeposition
electrodeposition
Oxides
Deposits
deposits
composite materials
oxides
Composite materials
Current density
Crystals
Polyethylene glycols
current density
Ions
crystals
Platelets
platelets
corrosion
ions
Corrosion
Polyethylene

All Science Journal Classification (ASJC) codes

  • Condensed Matter Physics
  • Mechanics of Materials
  • Metals and Alloys
  • Materials Chemistry

これを引用

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title = "Effect of additives on electrodeposition of zn∑zr oxide composite from dispersed particles-free solution",
abstract = "Electrodeposition of ZnZr oxide composite was performed from an unagitated sulfate solution containing Zn2+, Zr ions and additives such as NO3 ions and polyethylene glycol(PEG)at pH 2 and 313 K under galvanostatic conditions, and the effect of additives on the codeposition of Zr oxide and polarization property and micro structure of deposits was investigated. Zr content in deposits obtained at all the current densities increased significantly with addition of 2.0 g・dm3 of NaNO3. ZnZr oxide deposited from the solution containing NaNO3 showed massive structure composed of fine crystals without Zn platelets crystals, and a lot of large cracks occurred between the massive crystals. EDX analysis revealed that Zr codeposited on the massive crystals as fine concavoconvex oxide. The corrosion current density of ZnZr oxide deposited from the solution containing NaNO3 was almost same as that of pure Zn deposits, showing no improvement of corrosion resistance with codeposition of Zr oxide. On the other hand, Zr content in deposits obtained from the solution containing PEG increased significantly with increasing current density above 1000 A・m2. With addition of 1000 mg・dm3 of PEG, the Zn platelets crystals disappeared, and the deposits were composed of fine meshlike crystals with preferred orientation {1010}Zn plane, resulting in smooth surface. The cathodic current density for the reduction of dissolved oxygen on the ZnZr oxide deposited from the solution containing PEG was smaller than that of pure Zn deposits, as a result, the corrosion current density of ZnZr oxide deposits was smaller than that of pure Zn deposits. The increase in Zr content in deposits with NO3 ions and PEG is attributed to acceleration of hydrolysis reaction of Zr ions.",
author = "Yosuke Hara and Daiki Ueda and Satoshi Oue and Hiroaki Nakano",
year = "2018",
month = "1",
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doi = "10.2320/jinstmet.J2018027",
language = "English",
volume = "82",
pages = "366--371",
journal = "Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals",
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T1 - Effect of additives on electrodeposition of zn∑zr oxide composite from dispersed particles-free solution

AU - Hara, Yosuke

AU - Ueda, Daiki

AU - Oue, Satoshi

AU - Nakano, Hiroaki

PY - 2018/1/1

Y1 - 2018/1/1

N2 - Electrodeposition of ZnZr oxide composite was performed from an unagitated sulfate solution containing Zn2+, Zr ions and additives such as NO3 ions and polyethylene glycol(PEG)at pH 2 and 313 K under galvanostatic conditions, and the effect of additives on the codeposition of Zr oxide and polarization property and micro structure of deposits was investigated. Zr content in deposits obtained at all the current densities increased significantly with addition of 2.0 g・dm3 of NaNO3. ZnZr oxide deposited from the solution containing NaNO3 showed massive structure composed of fine crystals without Zn platelets crystals, and a lot of large cracks occurred between the massive crystals. EDX analysis revealed that Zr codeposited on the massive crystals as fine concavoconvex oxide. The corrosion current density of ZnZr oxide deposited from the solution containing NaNO3 was almost same as that of pure Zn deposits, showing no improvement of corrosion resistance with codeposition of Zr oxide. On the other hand, Zr content in deposits obtained from the solution containing PEG increased significantly with increasing current density above 1000 A・m2. With addition of 1000 mg・dm3 of PEG, the Zn platelets crystals disappeared, and the deposits were composed of fine meshlike crystals with preferred orientation {1010}Zn plane, resulting in smooth surface. The cathodic current density for the reduction of dissolved oxygen on the ZnZr oxide deposited from the solution containing PEG was smaller than that of pure Zn deposits, as a result, the corrosion current density of ZnZr oxide deposits was smaller than that of pure Zn deposits. The increase in Zr content in deposits with NO3 ions and PEG is attributed to acceleration of hydrolysis reaction of Zr ions.

AB - Electrodeposition of ZnZr oxide composite was performed from an unagitated sulfate solution containing Zn2+, Zr ions and additives such as NO3 ions and polyethylene glycol(PEG)at pH 2 and 313 K under galvanostatic conditions, and the effect of additives on the codeposition of Zr oxide and polarization property and micro structure of deposits was investigated. Zr content in deposits obtained at all the current densities increased significantly with addition of 2.0 g・dm3 of NaNO3. ZnZr oxide deposited from the solution containing NaNO3 showed massive structure composed of fine crystals without Zn platelets crystals, and a lot of large cracks occurred between the massive crystals. EDX analysis revealed that Zr codeposited on the massive crystals as fine concavoconvex oxide. The corrosion current density of ZnZr oxide deposited from the solution containing NaNO3 was almost same as that of pure Zn deposits, showing no improvement of corrosion resistance with codeposition of Zr oxide. On the other hand, Zr content in deposits obtained from the solution containing PEG increased significantly with increasing current density above 1000 A・m2. With addition of 1000 mg・dm3 of PEG, the Zn platelets crystals disappeared, and the deposits were composed of fine meshlike crystals with preferred orientation {1010}Zn plane, resulting in smooth surface. The cathodic current density for the reduction of dissolved oxygen on the ZnZr oxide deposited from the solution containing PEG was smaller than that of pure Zn deposits, as a result, the corrosion current density of ZnZr oxide deposits was smaller than that of pure Zn deposits. The increase in Zr content in deposits with NO3 ions and PEG is attributed to acceleration of hydrolysis reaction of Zr ions.

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