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金属陶瓷惰性阳极压坯的热脱脂工艺

Thermal debinder technology for cermet compacts of inert anode
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摘要 以聚乙烯醇(PVA)和NiFe2O4/Ni型金属陶瓷压坯为对象,采用热重分析(TGA)研究PVA在N2气氛中的热脱脂行为,建立PVA热脱脂速率的数学模型,在此基础上,模拟并计算PVA分解产物气体在多孔粉末压坯内的压力构建情况;结合粉末压坯脱脂强度测试结果,分析粉末压坯在脱脂过程中压坯尺寸、粘结剂含量等因素对升温速率和脱脂时间的影响,获得不同半径尺寸压坯的极限升温速率。运用所得方法和所得极限升温速率结果进行脱脂实验升温制度设计,实现了压坯直径D=0.12 m,压坯厚度e=0.12 m的NiFe2O4/Ni惰性阳极大型压坯的无缺陷热脱脂。 For developing non-defects large scale NiFe2O4/Ni cermet compacts of inert anode for the primary aluminium industry, the thermo-gravimetrie analysis was used to determine the thermal degradation kinetic of poly(vinyl alcohol) which was used as a binder. The kinetic parameters were then used in a coupled transport and kinetic model for evaluating the buildup of the gas pressure within the large scale ceramic green body as a function of variations of the heating rate and the body dimension. The critical heating rate for different body radius was predicted by comparing the gas pressure when the peak degradation rate occurred with the threshold body strength which was determined by the diametric compression test of the green body during thermal debindering. The results show that using these methods to design the thermal debinder process of NiFe2O4/Ni inert anode green body with binder diameter of 0.06 m and binder thickness of 0.12 m, the non-defects debinded and pre-sintered samples are gained after a 2 460 min heating up process.
作者 刘建元 张雷 李志友 周科朝
机构地区 中南大学粉末冶金国家重点实验室
出处 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2008年第5期980-986,共7页 Journal of Central South University:Science and Technology
基金 国家重点基础研究发展规划资助项目(2005CB623703) 湖南省科技计划资助项目(2007GK3096) 中南大学博士后科学基金资助项目(2007年)
关键词 惰性阳极 PVA NiFe2O4/Ni 热脱脂 极限升温速率 inert anode PVA NiFe2O4/Ni thermal debinder critical heating rate
分类号 TQ138.11 [化学工程—无机化工] TB333 [一般工业技术—材料科学与工程]
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参考文献26

  • 1Sadoway D R. Inert anodes for the hall heroult cell: The ultimate materials chaUenge[J]. JOM, 2001, 53(5): 34-35.
  • 2Pawlek R P. Inert anodes: an update[C]//Light Metals. 2008, Warrendale: TMS, 2008: 1039-1045.
  • 3张雷,周科朝,李志友,张晓泳.气氛对NiFe_2O_4陶瓷烧结致密化的影响[J].中国有色金属学报,2004,14(6):1002-1006. 被引量:28
  • 4张雷,周科朝.铝电解用NiFe_2O_4型金属陶瓷惰性阳极的研究进展[J].材料导报,2005,19(6):48-51. 被引量:2
  • 5张雷,李志友,周科朝,杨文杰,张晓泳.聚乙烯醇在镍铁氧体压坯中的脱脂行为[J].粉末冶金材料科学与工程,2005,10(6):340-343. 被引量:5
  • 6German R M. Theory of thermal debinding[J]. Inter J Powder Metall, 1987, 24(3): 237-245.
  • 7Stangle G C, Aksay I A. Simultaneous momentum, heat, and mass transfer with chemical reaction in a disordered porous medium: Application to binder removal from a ceramic green body[J]. Chem Eng Sci, 1990, 45(7): 1719-1731.
  • 8Calvert P, Cima M. Theoretical models for binder burnout[J]. Journal of the American Ceramic Society, 1990, 73(3): 575-79.
  • 9Baklouti S, Bouaziz J, Chartier T, et al. Binder burnout and evolution of the mechanical strength of dry-presssed ceramics containing poly(vinyl alcohol)[J]. Journal of the European Ceramic Society, 2001, 21(8): 1087-1092.
  • 10Oliveira A A M, Kaciany M, Hrdina K E, et al. Mass diffusion controlled bubbling and optimum schedule of thermal degradation of polymeric binders in molded powders[J]. International Journal of Heat and Mass Transfer, 1999, 42(17): 3307-3329.

二级参考文献47

  • 1杨建红,王化章,刘业翔,谢新军.铝电解用NiO-NiFe_2O_4基金属陶瓷的制备和性能研究[J].中南矿冶学院学报,1993,24(3):326-331. 被引量:11
  • 2[1]Ray S P. Inert anodes for Hall cells[A]. Miller R E. Light Metals[C]. Warrendale: TMS, 1986. 287- 298.
  • 3[2]WANG Hua-zhang, Thonstad J. Testing of inert anode materials for hall cells[A]. Ray S P. Light Metals[C]. Warrendale: TMS, 1987. 357-365.
  • 4[3]Mcleod A D, Haggerty J S. Inert anode materials for hall cells[A]. Miller R E. Light Metals[C]. Warrendale: TMS, 1986. 269-273.
  • 5[4]Sadoway D R. Inert anodes for the hall heroult cell: the ultimate materials challenge[A]. JOM, 2001, 53 (5): 34 - 35.
  • 6[5]Pawlek R P. Inert anodes for the primary aluminium industry: an update[A]. HalE W R. Light Metals[C]. Warrendale: TMS, 1996. 243- 248.
  • 7[7]Olsen E, Thonstad J. The behaviour of nickel ferrite cermet materials as inert anodes[A]. Hale W. Light Metals[C]. Warrendale: TMS, 1996. 249-257.
  • 8[8]Mcleod A D, Lihrman J M, Haggerty J S, et al. Selection and testing of inert anode materials for Hall cells[A]. Zabreznik R D. Light Metals[C]. Warrendale: TMS, 1987. 357- 365.
  • 9[9]Pawlek R P. Inert anodes: an update[A]. Wolfgang S. Light Metals[C]. Warrendale: TMS, 2002. 449-456.
  • 10[10]Olsen E, Thonstad J. Nickel ferrite as inert anodes in aluminium electrolysis: Part Ⅰ. Material fabrication and preliminary testing[J]. Journal of Applied Electrochemistry, 1999, 29(3): 293 - 299.

共引文献31

中南大学学报(自然科学版)
2008年 第5期

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