介绍了近年来描述HVOF喷涂过程中颗粒行为的数学模型,并结合不同粉末的特点给出了相应的模型修正.简要总结了数值模拟的研究成果,从颗粒的尺寸、形貌、密度及喷涂距离等方面分析了不同工艺参数对喂料颗粒在喷涂过程中状态变化的影响以及与涂层组织和性能之间的关系,从而为深入了解HVOF喷涂工艺的特点提供了一条有效途径,也为热喷涂的模拟研究提供了一些参考和借鉴.
参考文献
| [1] | Irvint R .A new technology in thermal spray[J].Iron Age,1984,34(06):23. |
| [2] | Cheng D;Trapaga G;McKelliget J W et al.Mathematical modeling of high velocity oxygen fuel thermal spraying[J].Key Engineering Materials,2001,197:1. |
| [3] | Koutsky J .High velocity oxy-fuel spraying[J].Journal of Materials Processing Technology,2004,157-158:557. |
| [4] | Li H.;Khor KA.;Cheang P. .Impact formation and microstructure characterization of thermal sprayed hydroxyapatite/titania composite coatings[J].Biomaterials,2003(6):949-957. |
| [5] | Ghafouri-Azar R;Mostaghimi J;Chandra S .Modeling development of residual stresses in thermal spray coatings[J].Computational Materials Science,2006(1):13-26. |
| [6] | Wenzelburger M;Escribano M;Gadow R .Modeling of thermally sprayed coatings on light metal substrates: layer growth and residual stress formation[J].Surface & Coatings Technology,2004(0):429-435. |
| [7] | Li M;Shi D;Christofides P D .Diamond jet hybrid HVOF thermal spray:Gas-phase and particle behavior modeling and feedback control design[J].Industrial and Engineering Chemistry Research,2004,43:3632. |
| [8] | Li MH;Christofides PD .Multi-scale modeling and analysis of an industrial HVOF thermal spray process[J].Chemical Engineering Science,2005(13):3649-3669. |
| [9] | Mostaghimi J.;Chandra S.;Ghafouri-Azar R.;Dolatabadi A. .Modeling thermal spray coating processes: a powerful tool in design and optimization[J].Surface & Coatings Technology,2003(0):1-11. |
| [10] | Li MH.;Christofides PD. .Modeling and analysis of HVOF thermal spray process accounting for powder size distribution[J].Chemical Engineering Science,2003(3/6):849-857. |
| [11] | Eidelman S;Yang X L.Three dimentional simulation of HVOF spray deposition of nanoscale materials[J].Nanostructured Materials,1997(09):79. |
| [12] | Lau M L;Gupta V V.Mathematical modeling of particle vehavior of nanocrystalline Ni during high velocity oxyfuel thermal spray[J].Nanostructured Materials,1998(10):715. |
| [13] | Li M;Shi D;Christofides P D .Modeling and control of HVOF thermal spray processing of WC-Co coatings[J].Powder Technology,2005,156:177. |
| [14] | Crowe C T;Sommerfeld M;Tsuji Y.Multiphase flows with droplets and particles[M].CRC Press,Boca Raton,FL,USA,1997:21. |
| [15] | Lech Pawlowski.The science and engineering of thermal spray coatings[M].England:John Wiley & Sons,1995:77. |
| [16] | 王汉功;查柏林.超音速喷涂技术[M].北京:科学出版社,2005:187. |
| [17] | Ganser G H .A rational approach to drag prediction of spherical and nonspherical particles[J].Powder Technology,1993,77:143. |
| [18] | Cheng D;Xu Q;Trapaga G .The effect of particle size and morphology on the in-flight behavior of particles during high velocity oxy-fuel thermal spraying[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,2001,32:525. |
| [19] | Cheng D;Xu Q;Trapaga G .A numerical study of high-yelocity oxygen fuel thermal spraying process,part Ⅰ:Gas phase dynamics[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,2001,32:1609. |
| [20] | Li MH;Shi D;Christofides PD .Model-based estimation and control of particle velocity and melting in HVOF thermal spray[J].Chemical Engineering Science,2004(22/23):5647-5656. |
| [21] | Bird R B;Stewart W E;Lightfoot E N.Transport phenomena[M].New York:Wiley,1960:409. |
| [22] | Gordon S;McBride B J.Computer program for calculation of complex chemical equilibrium compositions and applications[M].NASA Reference Publication,Lewis Research Center,Cleveland,OH,USA,1994:1311. |
| [23] | Lavernia E J;Wu Y.Spray atomization and deposition[M].New York:Wiley,1996:106. |
| [24] | Lau ML.;Nuchter W.;Lavernia EJ.;Jiang HG. .Thermal spraying of nanocrystalline Ni coatings[J].Physica Status Solidi, A. Applied Research,1998(1):257-268. |
| [25] | Lau, ML;Lavernia, EJ;Gupta, VV .Particle behavior of nanocrystalline 316-stainless steel during high velocity oxy-fuel thermal spray[J].Nanostructured Materials,1999(1/4):319-322. |
| [26] | He J H;Schoenung J M .Nanostructured catings[J].Materials Science and Engineering,2002,A336:274. |
| [27] | Clift R;Grace J R;Weber M E.[M].New York,NY:Academic Press,Inc,1978 |
| [28] | Sobolev V V;Guilemany J M et al.Modelling of particle movement and thermal behaviour during high velocity oxyfuel spraying[J].Surface and Coatings Technology,1994,63:181. |
| [29] | Knotek O;Schnaut U.Process modeling of HVOF thermal spraying systems[A].Orlando,Florida,USA,1992:811. |
| [30] | Tawfik H H;Zimmerman F .Mathematical modeling of the gas and powder flow in HVOF systems[J].Journal of Thermal Spray Technology,1997,6(03):345. |
| [31] | Swank W D;Fincke J R;Haggard D C.HVOF particle flow field characteristics[A].Boston,MA,1994:319. |
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%