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等离子熔射粉末颗粒飞行过程格子Boltzmann法仿真 被引量:2

Simulation of powder particles moving procedure in plasma spray process via lattice Boltzmann method
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摘要 为考察等离子熔射过程中粉末的飞行过程,本文在已开发的正六边形7-b it格子Bo ltzm ann(LB)方法等离子射流的温度场和速度场的计算模型基础上,采用单个颗粒加速方程,建立了一个随机算法,实现了对粉末颗粒在射流场中运动过程的仿真;计算结果通过动画演示了粉末飞行的全过程,表明初始位置越靠近射流场出口中心的粉末颗粒加速越充分,并且在射流场一定的情况下,减小粉末颗粒直径可以提高粉末速度,但会降低粉末利用率。 The focus point of this paper is building the model of powder particles' transportation in plasma spray process for rapid metal tooling. First, on the basis of the hexagonal 7-bit grid LB model, the temperature field and velocity field were solved by LBGK equation and two opportune equilibrium distribution functions; then the acceleration equation was deduced from the moving equation of a single particle. A random model was built, and a suit of rules were used to estimate the location of a particle. With this arithmetic, the numerical simulation program is developed. Finally, the model and the software were validated by comparing with other literatures. The simulation result of the moving procedure of the powder particles in the jet by the method shows the whole process via animation, which indicates that particles closer to the center of the spout will be accelerated more sufficiently and reducing the diameter of the powder particle will increase the velocity of the particle but reduce the availability ratio of the powder. These results can be consulted when optimizing the plasma spray process.
作者 张海鸥 彭勇 王桂兰 胡盛德
机构地区 华中科技大学塑性成形模拟及模具技术国家重点实验室
出处 《计算力学学报》 EI CAS CSCD 北大核心 2006年第1期81-86,共6页 Chinese Journal of Computational Mechanics
基金 国家自然科学基金(5047405350475134)资助项目
关键词 等离子熔射 格子BOLTZMANN 颗粒移动 数值模拟 plasma spray lattice Boltzmann method particle moving numerical simulation
分类号 TK121 [动力工程及工程热物理—工程热物理]
  • 相关文献

参考文献6

  • 1张海鸥,韩光超,王桂兰.快速制造模具技术[J].中国机械工程,2002,13(22):1903-1906. 被引量:37
  • 2PFENDER E, CHANG C H. Plasma Spray jet and plasma-particulate interaction: modeling and experiments [A]. Proceeding of the international thermal spray conference 25-29[C]. Nice, France,1998: 315-326.
  • 3王桂兰,朱杰英,张海鸥.基于格子玻耳兹曼的等离子射流场数值模拟[J].华中科技大学学报(自然科学版),2003,31(6):1-3. 被引量:8
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二级参考文献12

  • 1Pan Wenxia, Zhang Wenhua, Zhang Wenhong, et al.Generation of long, laminar plasma jets at atmosphericpressure and effects of flow turbulence. Plasma Chemistry and Plamaa Processing, 2001, 21(1): 23-35.
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共引文献42

同被引文献13

  • 1王桂兰,胡帮友,严波,张海鸥.三维等离子喷涂的涂层生长过程温度场数值模拟[J].固体力学学报,2005,26(2):151-156. 被引量:8
  • 2[1]Xiong Hongbing,Zheng Lili,Sanjay Sampath,et al.Three-dimensional simulation of plasma spray effects of carrier gas flow and particle injection on plasma jet and entrained particle behavior[J].International Journal of Heat and Mass Transfer,2004,47:5 189-5 200.
  • 3[2]Zhang Haiou,Hu Shengde,Wang Guilan,et al.Modeling and simulation of plasma jet by lattice Boltzmann method[J].Applied Mathematical Modelling,2006,22,APM 6724.
  • 4[4]Takada N,Tomiyama A,Hosokawa S.Simulation of interface deformation in shear flow using binary fluid lattice Boltzmann model[J].American Society of Mechanical Engineers,Fluids Engineering Division,2002,257(1):867-874.
  • 5[7]Zhang Haiou,Hu Bangyou,Wang Guilan.Simulation on controllable-porosity coating by plasma spray[C] // Thermal Spray 2007:Global Coating Solutions.Ohio:ASM International,2007:254-259.
  • 6[8]Chen Yanxiang,Wang Guilav,Zhang Haiou.Numerical simulation of coating growth and pore formation in rapid plasma tooling[J].Thin Solid Films,2001,390(1):13-19.
  • 7PFENDER E,CHANG C H.Plasma spray jet and plasma-particulate interaction:modeling and experiments[A].Proceeding of the 15th international thermal spray conference[C].Ohio:ASM International,1998:315-326.
  • 8ZHANG H O,WANG G L,TAKEO Nakga.Rapid hard tooling by plasma spraying for injection molding and sheet metal forming[J].Thin Solid Films,2001(390):7-12.
  • 9邵其鋆,何煜,郭文康,须平,臧德鸿.直流等离子体弧温度测量与模拟计算结果的比较[J].物理学报,1999,48(9):1691-1700. 被引量:8
  • 10王桂兰,朱杰英,张海鸥.基于格子玻耳兹曼的等离子射流场数值模拟[J].华中科技大学学报(自然科学版),2003,31(6):1-3. 被引量:8

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计算力学学报
2006年 第1期

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