Enviar artigo por via de e-mail Creep Deformation of Carbon-Based Cathode Materials for Low-Temperature Aluminum Electrolysis
- Autores: Wang W.1,2, Chen W.1, Gu W.2
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Afiliações:
- College of Materials Science and Engineering, Henan University of Science and Technology
- Collaborative Innovation Center of Nonferrous Metals Henan Province
- Edição: Volume 61, Nº 7-8 (2017)
- Páginas: 717-725
- Seção: Article
- URL: https://journal-vniispk.ru/0026-0894/article/view/240770
- DOI: https://doi.org/10.1007/s11015-017-0555-0
- ID: 240770
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Resumo
The uniaxial-compression creep behavior of semi-graphitic carbon products was investigated using modified Rapoport equipment in a K3AlF6–Na3AlF6–AlF3 and a Na3AlF6–AlF3 system. The stress exponent is low for the K3AlF6–Na3AlF6–AlF3 system in the steady-state creep stage. With an increase in graphitization degree and grain size, the interlayer space and porosity of the tested samples decrease after aluminum electrolysis. A low temperature can suppress carbon-cathode damage. Based on these stress exponents and a microstructural investigation using transmission electron microscopy, it is proposed that dislocation glide is the dominant creep mechanism for the carbon cathode during aluminum electrolysis in the steady-state creep stage.
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Sobre autores
Wei Wang
College of Materials Science and Engineering, Henan University of Science and Technology; Collaborative Innovation Center of Nonferrous Metals Henan Province
Email: info@metallurgizdat.com
República Popular da China, Luoyang, 471023; Luoyang, 471023
Weijie Chen
College of Materials Science and Engineering, Henan University of Science and Technology
Email: info@metallurgizdat.com
República Popular da China, Luoyang, 471023
Wanduo Gu
Collaborative Innovation Center of Nonferrous Metals Henan Province
Email: info@metallurgizdat.com
República Popular da China, Luoyang, 471023
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