Anodic dissolution behavior of TiCxOy in NaCl-KCl melt

Xiaohui Ning; Hengyang Liu; Hongmin Zhu

doi:10.5796/electrochemistry.78.513

Anodic dissolution behavior of TiC_xO_y in NaCl-KCl melt

Xiaohui Ning
, Hengyang Liu
, Hongmin Zhu

University of Science and Technology Beijing

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The anodic dissolution behavior of conductive titanium oxycarbide in NaCl-KCl melt was investigated in detail. An emphasis is on the anode gas was analyzed on-line using mass spectra when performing electrolysis. The results showed that TiC_xO_y can dissolve in alkali chloride melt During the anodic dissolution, titanium component of TiC_xO _y dissolves as Ti²⁺ ion into the molten salt, and the components of carbon and oxygen form carbon monoxide (CO) simultaneously. A series of investigation has been focused on the influences of the current density and the concentration of Ti²⁺ on the anodic dissolution. An interesting result shows that the faradic dissolution ratio is significantly related to the anodic current density instead of the concentration of Ti ²⁺.

Original language	English
Pages (from-to)	513-516
Number of pages	4
Journal	Electrochemistry
Volume	78
Issue number	6
DOIs	https://doi.org/10.5796/electrochemistry.78.513
State	Published - Jun 2010
Externally published	Yes

Keywords

Anodic dissolution
Faradic dissolution ratio
Oxycarbide
Titanium

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10.5796/electrochemistry.78.513

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title = "Anodic dissolution behavior of TiCxOy in NaCl-KCl melt",

abstract = "The anodic dissolution behavior of conductive titanium oxycarbide in NaCl-KCl melt was investigated in detail. An emphasis is on the anode gas was analyzed on-line using mass spectra when performing electrolysis. The results showed that TiCxOy can dissolve in alkali chloride melt During the anodic dissolution, titanium component of TiCxO y dissolves as Ti2+ ion into the molten salt, and the components of carbon and oxygen form carbon monoxide (CO) simultaneously. A series of investigation has been focused on the influences of the current density and the concentration of Ti2+ on the anodic dissolution. An interesting result shows that the faradic dissolution ratio is significantly related to the anodic current density instead of the concentration of Ti 2+.",

keywords = "Anodic dissolution, Faradic dissolution ratio, Oxycarbide, Titanium",

author = "Xiaohui Ning and Hengyang Liu and Hongmin Zhu",

year = "2010",

month = jun,

doi = "10.5796/electrochemistry.78.513",

language = "英语",

volume = "78",

pages = "513--516",

journal = "Electrochemistry",

issn = "1344-3542",

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T1 - Anodic dissolution behavior of TiCxOy in NaCl-KCl melt

AU - Ning, Xiaohui

AU - Liu, Hengyang

AU - Zhu, Hongmin

PY - 2010/6

Y1 - 2010/6

N2 - The anodic dissolution behavior of conductive titanium oxycarbide in NaCl-KCl melt was investigated in detail. An emphasis is on the anode gas was analyzed on-line using mass spectra when performing electrolysis. The results showed that TiCxOy can dissolve in alkali chloride melt During the anodic dissolution, titanium component of TiCxO y dissolves as Ti2+ ion into the molten salt, and the components of carbon and oxygen form carbon monoxide (CO) simultaneously. A series of investigation has been focused on the influences of the current density and the concentration of Ti2+ on the anodic dissolution. An interesting result shows that the faradic dissolution ratio is significantly related to the anodic current density instead of the concentration of Ti 2+.

AB - The anodic dissolution behavior of conductive titanium oxycarbide in NaCl-KCl melt was investigated in detail. An emphasis is on the anode gas was analyzed on-line using mass spectra when performing electrolysis. The results showed that TiCxOy can dissolve in alkali chloride melt During the anodic dissolution, titanium component of TiCxO y dissolves as Ti2+ ion into the molten salt, and the components of carbon and oxygen form carbon monoxide (CO) simultaneously. A series of investigation has been focused on the influences of the current density and the concentration of Ti2+ on the anodic dissolution. An interesting result shows that the faradic dissolution ratio is significantly related to the anodic current density instead of the concentration of Ti 2+.

KW - Anodic dissolution

KW - Faradic dissolution ratio

KW - Oxycarbide

KW - Titanium

UR - https://www.scopus.com/pages/publications/77954892292

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DO - 10.5796/electrochemistry.78.513

M3 - 文章

AN - SCOPUS:77954892292

SN - 1344-3542

VL - 78

SP - 513

EP - 516

JO - Electrochemistry

JF - Electrochemistry

IS - 6

ER -

Anodic dissolution behavior of TiC_xO_y in NaCl-KCl melt

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Keywords

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