为了探明紧耦合气雾化制粉过程中金属熔液在气流作用下的雾化机理,采用降低金属过热度,使部分金属液流在雾化过程中提前凝固的方法,研究了开涡状况下(气体压力为2.1 MPa)金属液流的成膜机制.结果表明:雾化过程中液膜不是连续生成的,而是以离散方式形成的;开涡状况下的"实心锥"雾化存在将液滴挤压成液膜的成膜过程.这个成膜过程可表述为:金属液流进入回流区,经"初次雾化"破碎成离散的液滴,并在湍流层中进一步破碎细化,从滞留点前端穿过马赫盘,被挤压成厚度约为10~30μm、面积大约为10~50 mm2的液膜.
参考文献
| [1] | A.G.Dowson .Atomization dominates powder production[J].Metal Powder Report,1999(1):15-17. |
| [2] | Schulz G.Some applications of ultrafine, gas atomized metal powder beyond classical powder metallurgy[A].Japan:The Japan Party of Powder and Powder Metallurgy,2000:475-478. |
| [3] | Sheikhaliev S M;Beryukhov A V;Dunkley J J.Metal droplet's deformation and break-up by a gas stream[A].,2004:1-6. |
| [4] | Jason Ting;Iver E. Anderson .A computational fluid dynamics (CFD) investigation of the wake closure phenomenon[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1/2):264-276. |
| [5] | Ting J.;Peretti MW.;Eisen WB. .The effect of wake-closure phenomenon on gas atomization performance[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(1):110-121. |
| [6] | Laulgy A.Atomization: The Production of Metal Powder[M].Princeton NJ:Metal Powder Industries Federation,1992:76. |
| [7] | Mates S P;Settles G S.High-speed imaging of liquid atomization by two different close-coupled nozzles[A].princeton NJ:MPIF,1996:67-80. |
| [8] | LIU H;Robert F.Effect of atomizer geometry and configuration on gas flow field in gas atomization[A].Princeton NF:MPIF,1997:5-10. |
| [9] | Espina P I;Piomelli U.Numerical simulation of the gas flow in gas-metal atomizers[A].princeton NJ:MPIF,1998:1-11. |
| [10] | Dunkley J .Water bench testing boots gas atomizing[J].Metal Powder Report,1999,54:26-29. |
| [11] | Lee CH.;Reitz RD. .An experimental study of the effect of gas density on the distortion and breakup mechanism of drops in high speed gas stream[J].International Journal of Multiphase Flow,2000(2):229-244. |
| [12] | Strauss J T .Hotter gas increases atomization efficiency[J].Metal Powder Report,1999,54:24. |
| [13] | Strauss J T;Miller S A.Effect of gas properties in powder yield produced by close-coupled gas atomization[A].princeton NJ:MPIF,1997:45-52. |
| [14] | Strauss T J .Close-coupled gas atomization using elevated temperature gas[J].Advances in PM Tech,1999,1:23-34. |
| [15] | Murray IF;Heister SD .On a droplet's response to acoustic excitation[J].International Journal of Multiphase Flow,1999(3):531-550. |
| [16] | LIU Yun-zhong;CHEN Zhe-hua;WANG J N .Numerical simulation of the thermal history of droplets during multi-stage atomization[J].Science and Technology of Advanced Materials,2001,2:177-180. |
| [17] | Jr Giel T V;Mueller T J.The Mach Disk in Truncated Plug Nozzle FlowAIAA[M].,1975:75-886. |
| [18] | 李清泉.紧密耦合气体雾化制粉原理[J].粉末冶金工业,1999(05):3-17. |
| [19] | Zucker R D.Fundamentals of Gas Dynamics[M].Chesterland OH:Matrix Publishers Inc,1977 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%