Numerical Simulation of Temperature Field in Nanostruc-tured Al203-13Ti02 Feedstock in Supersonic Plasma Spraying
Velocity and temperature of nanostructured Al2O313TiO2 feedstocks in supersonic plasma spraying was detected applying CCD thermal spray monitor. Based on the detect results, temperature field in the feedstock in spraying process was analyzed via finite element method. Result shows that the highest velocity of the flying particles exceed to 800m/s. With the increase of spraying distance, velocity decline parabolic. Surface temperature of the feedstock increase firstly and then decrease and the highest temperature exceed to 2600 °C. Internal temperature of the feedstock is higher than the melting point when the distance reaches to 80mm. As the spraying distance increase, temperature gradient in the particle decreased gradually.
supersonic plasma spraying nanostructured feedstock CCD image analysis numerical simulation
Li Changqing Zhu Youli Ma Shining Song Wei
Department of Remanufacture Engineering, Academy of Armored Force Engineering, Beijing 100072, China
国际会议
西安
英文
81-84
2011-05-11(万方平台首次上网日期,不代表论文的发表时间)