The thermal stresses relaxation of Ni/NiFe2O4 system functionally graded cermet inert anode for aluminum electrolysis was optimally designed. The transient thermal stresses of the inert anode under complex boundary condition during high-temp (955℃) electrolysis were calculated using the finite-element software ANSYS, the influence of different parameters on the distribution of the thermal stresses were analyzed. The results showed that, during the process of thermal shock,the thermal hoop tensile stress on the surface of the anode is very large, which is possibly the major cause of anode crack; when the radius of the anode is between 0.05-0.15m, a range that can be realized by recent manufacturing technology, the optimum composition distribution exponent p is 0.25; The hoop tensile stresses reduce with the decrease of anode scale and also decrease with the decrease of the convection coefficient between the electrolyte and the anode.
参考文献
| [1] | J Zhao;J X Den;X Ai;J H Zhang ,Z Y Luan .[J].Journal of Ceramics,1999,20(03):131. |
| [2] | 李劼,赖延清,周科朝,李志友,刘业翔.Preparation and preliminary testing of cermet inert anode for aluminum electrolysis[J].中国有色金属学会会刊(英文版),2003(03):663-670. |
| [3] | X Y Zhang;K C Zhou;Z Y Li;L Zhang .[J].Journal of Materials Science and Engineering,2003,21(05):697. |
| [4] | 滕立东,王福明,李文超.梯度功能材料数值模拟进展[J].稀有金属,1999(04):298-303. |
| [5] | I Tamura;Y Tomota;H Ozura.Proc. Third Int. Conf Strength of Metals and Alloys[C].Institute of Metals,Cambridge London,1973:611. |
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