Effect of working condition on thermal stress of NiFe2O4-based cermet inert anode in aluminum electrolysis

Jie Li; Zhi-gang Wang; Yan-qing Lai; Wei Liu; Shao-long Ye

doi:10.1007/s11771-007-0093-1

Journal of Central South University ›› 2007, Vol. 14 ›› Issue (4) : 479 -484. DOI: 10.1007/s11771-007-0093-1

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Effect of working condition on thermal stress of NiFe₂O₄-based cermet inert anode in aluminum electrolysis

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Abstract

Based on the FEA software ANSYS, a model was developed to simulate the thermal stress distribution of inert anode. In order to reduce its thermal stress, the effect of some parameters on thermal stress distribution was investigated, including the temperature of electrolyte, the current, the anode cathode distance, the anode immersion depth, the surrounding temperature and the convection coefficient between anode and circumstance. The results show that there exists a large axial tensile stress near the tangent interface between the anode and bath, which is the major cause of anode breaking. Increasing the temperature of electrolyte or the anode immersion depth will deteriorate the stress distribution of inert anode. When the bath temperature increases from 750 to 970 °C, the maximal value and absolute minimal value of the 1st principal stress increase by 29.7% and 29.6%, respectively. When the anode immersion depth is changed from 1 to 10 cm, the maximal value and absolute minimal value of the 1st principal stress increase by 52.1% and 65.0%, respectively. The effects of other parameters on stress distribution are not significant.

Keywords

inert anode / thermal stress / working condition / aluminum electrolysis

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Jie Li, Zhi-gang Wang, Yan-qing Lai, Wei Liu, Shao-long Ye. Effect of working condition on thermal stress of NiFe₂O₄-based cermet inert anode in aluminum electrolysis. Journal of Central South University, 2007, 14(4): 479-484 DOI:10.1007/s11771-007-0093-1

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References

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[1]	LIU Ye-xiang. Advance on the research and development of inert anode and wettable cathode in the aluminum electrolysis[J]. Light Metals, 2001(5): 26–29. (in Chinese)

[2]	PawlekR. P.. Inert anodes: An update[C]//. SCHNEIDER W. Light Metals, 2002, Warrendale, TMS: 449-456

[3]	de NoraV.. Aluminium electrowinning—The future[J]. Aluminium, 2000, 76(12): 998-999

[4]	ZHOU Wei-ming, GUO Zhong-cheng. Present status of materials of inert anode for electrolysising aluminium[J]. Metallurgical Collections, 2004 (1): 1–3. (in Chinese)

[5]	CHEN Xi-ping, LIU Feng-qin. Present studying situation of inert anodes in aluminum electrolysis cells[J]. Nonferrous Metals (Extractive Metallurgy), 2002 (4): 23–26. (in Chinese)

[6]	WU Xian-xi. Conditions of investigation on the inert anodes in aluminium electrolysis[J]. Light Metals, 2000(1): 41–43. (in Chinese)

[7]	ZhangL., ZhouK.-c., LiZ.-y., et al.. Effect of atmosphere on densification in sintering nickel ferrite ceramic for aluminum electrolysis[J]. The Chinese Journal of Nonferrous Metals, 2004, 14(6): 1002-1006

[8]	ZhangG., LaiY.-q., TianZ.-l., et al.. Preparation of nickel ferrite based cermets for aluminum electrolysis[J]. Journal of Materials Science & Engineering, 2003, 21(4): 510-513

[9]	TianZ.-l., LaiY.-q., ZhangG., et al.. Preparation of NiFe₂O₄-Cu based cermet inert anodes in aluminum electrolysis[J]. The Chinese Journal of Nonferrous Metals, 2003, 13(6): 1540-1545

[10]	JiaoW.-l., ZhangL., YaoG.-c., et al.. Sintering process of NiFe₂O₄ spinel with and without TiO₂ adding[J]. Journal of the Chinese Ceramic Society, 2004, 32(9): 1150-1153

[11]	LaiY.-q., LiJ., TianZ.-l., et al.. On the corrosion behaviour of NiFe₂O₄-NiO based cermets as inert anodes in aluminum electrolysis[C]//. McNeil J. Light Metals, 2006, Warrendale, TMS: 495-500

[12]	ZhangX.-y., ZhouK.-c., LiZ.-y., et al.. Design for the relax of thermal stress in the surface of 2-D functionally graded model[J]. Journal of Materials Science and Engineering, 2003, 21(5): 697-702

[13]	LiJ., ZhangQ. S., LaiY. Q., et al.. Thermal stresses relaxation design of Ni/NiFe₂O₄ system functionally graded cermet inert anode[J]. Acta Metallurgica Sinica, 2005, 18(5): 635-641