热喷涂知识 脚本控制

ITSC2013年会议论文集

目录

先进热喷涂材料
超低压等离子喷涂技术在金属基涂层的气相沉积中的应用............................... 1
B. Vautherin1, M.-P. Planche1, R. Bolot1, G. Montavon1, A. Quet2, and L. Bianchi2
(1) IRTES-LERMPS, UTBM, Belfort, France
(2) CEA Le Ripault, Mons, France
一种新型喷涂粉末WC-FeCrAl与标准WC-Co的对比研究................................ 8
B. Hussong, J. Pfeiffer, B. Lehmert, L. Wojarski, and W. Tillmann
Institute of Materials Engineering, Dortmund, Germany
抗氧化CoNiCrAlY粘结层的沉积及其氧化性能............................................... 16
M. Okada1, R. Vaßen2, M. Karger2, D. Sebold2, D.E. Mack2, M.O. Jarligo2, and F. Bozza3
(1) Central Research Institute of Electric Power Industry, Yokosuka, Japan
(2) Forschungszentrum Jülich GmbH, Jülich, Germany
(3) University of Modena and Reggio Emilia, Modena, Italy
干冰爆破对等离子喷涂热障涂层的影响.......................................................... 22
S.-J. Dong1, B. Song1, H.-L. Liao1, C. Coddet1, and B. Hansz2
(1) IRTES-LERMPS, UTBM, France
(2) HMRexpert, France
TAT和TCT测试表征等离子喷涂YSZ涂层的力学性能..................................... 29
Andrew Siao Ming Ang and Christopher C. Berndt,
Swinburne University of Technology, Melbourne, Australia
Y2O3和Yb2O3 -Co掺杂的锶铪酸盐制备的新型热障涂层材料.......................... 35
W. Ma, P. Li, H.-Y. Dong, Y. Bai, J.-L. Zhao, and X.-Z. Fan,
Inner Mongolia University of Technology, Hohhot, Inner Mongolia, P.R. China
关于双电线电弧喷涂应用多样化的改进方法................................................... 41
W. Tillmann, M. Abdulgader, and L. Hagen,
Technische Universität Dortmund, Dortmund, Germany
熔炉应用中高温抗氧化MoSi2的热喷涂涂层................................................ 47
S. Schuberth, T. Uhlig, H. Pokhmurska, C. Rupprecht, and T. Lampke,
Chemnitz University of Technology, Chemnitz, Germany
vi
气体和液体燃料的HVOF工艺制备(Ti,Mo)(C,N)硬质涂层及其摩擦磨损性能.. 51
L.-M. Berger1, J. Kitamura2, F. Kasahara2, J. Yamada2, K. Sato2, P. Vuoristo3,
A. Milanti3, K. Niemi3, Š. Houdková4, and J. Savková5
(1) Fraunhofer Institute Material and Beam Technology, Dresden, Germany
(2) Fujimi Incorporated, Gifu, Japan
(3) Tampere University of Technology, Department of Materials Science, Tampere, Finland
(4) Výzkumný a zkušebni ústav Plzeň s.r.o, Plzen, Czech Republic
(5) University of West Bohemia, Plzen, Czech Republic
致密型MoB/CoCr涂层在钢铁工业中滚镀锌生产线中的应用......................... 57
J. Kitamura, T. Tosaki, and H. Mizuno,
Fujimi Incorporated, Gifu, Japan
WC-Co-Cr粉末性能对使用HVAF喷涂工艺制备的涂层特征的影响................ 63
Kazuto Sato1, Hidenori Miyajima2, Masami Kato2, Junya Kitamura1, and Kazuhiko Sakaki2,
(1) Fujimi Incorporated, Gifu, Japan
(2) Shinshu University, Nagano, Japan
关于HVOF喷涂工艺制备的硬质涂层的静摩擦应用条件的研究...................... 68
L.-M. Berger1, J. Spatzier1, M. Gräfensteiner2, J. Vidner2, E. Leidich2, S. Schiefer2,
S. Gröger2, and M. Gerlach2
(1 ) Fraunhofer Institute, Dresden, Germany
(2) Chemnitz University of Technology, Chemnitz, Germany
热喷涂材料Ti3SiC2 和 Ti2AlC 最大相涂层................................................... 74
R. Trache1, R. Puschmann1, C. Leyens1, L.-M. Berger2, B. Matthey3, and M. Herrmann3
(1) Dresden Technical University, Dresden, Germany
(2) Fraunhofer IWS, Dresden, Germany
(3) Fraunhofer IKTS, Dresden, Germany
陶瓷基体热喷涂涂层的研究进展..................................................................... 79
F.-L. Toma1, L.-M. Berger1, T. Hoffmann1, U. Klotzbach1, S. Scheitz2, S. Thiele3, and M. Fries3
(1) Fraunhofer Institute for Material and Beam Technology, Dresden, Germany
(2) Dresden University of Technology, Dresden, Germany
(3) Fraunhofer Institute for Ceramic Materials and Systems, Dresden, Germany
应用案例研究
大气等离子喷涂、HVOF和激光重熔法制备的涂层的腐蚀性能..................... 85
P.T. Nielsen, T. Mathiesen, and S.E. Nielsen,
Force Technology, Broendby, Denmark
大孔钛涂层的等离子喷涂制备........................................................................ 91
P. Robotti1, A. Sabbioni1, L. Glass2, and B. George2
(1) Eurocoating Spa, Trento, Italy
(2) Surface Dynamics, Cincinnati, OH, USA
vii
用于海洋环境下防腐蚀保护的高性能电弧喷镀层........................................... 97
Werner Kroemmer, Linde AG, Unterschleissheim, Germany
用于电线电弧喷涂废热回收的网状热交换器的构造...................................... 103
R. Rezaey, S. Salavati, L. Pershin, T. Coyle, S. Chandra, and J. Mostaghimi,
Centre for Advanced Coating Technologies, Toronto, Ontario, Canada
等离子喷涂中粉末的本质:功率或粉末熔化能力?....................................... 109
J. Colmenares-Angulo, O. Sabouni, and C. Ibanez,
Sulzer Metco, Westbury, NY, USA
热喷涂涂层的超疏水和防水特性................................................................... 113
N. Sharifi1, F. Ben Ettouil1, M. Mousavi1, M. Pugh1, A. Dolatabadi1, and C. Moreau2
(1) Concordia University, Montreal, Quebec, Canada
(2) National Research Council of Canada, Boucherville, Quebec, Canada
T22钢上的新型Ni-20Cr合金粉末涂层的高温氧化....................................... 120
Manoj Kumar, Harpreet Singh, and Narinder Singh,
Indian Institute of Technology Ropar, Rupnagar, Punjab, India
冷喷涂技术
冷喷涂工艺制备的5xxx系列铝合金的抗腐蚀性能....................................... 126
K. Sridharan, B. Maier, B. Hauch, and D. Devan,
University of Wisconsin - Madison, Madison, WI, USA
EBSD理论中新引入的评价参数用以表征冷喷涂铜镀层的方法研究............. 132
Yusuke Watanabe, Yuji Ichikawa, Isamu Nonaka, and Hideo Miura,
Tohoku University, Sendai, Japan
采用高速含氧燃料喷涂和冷气体喷涂两种方法在Al7075-T6基体上制备WC-25Co 涂层的力学性能和电化学性能对比............................................. 138
M. Couto, S. Dosta, J. Fernández, and J.M. Guilemany,
Universitat de Barcelona, Barcelona, Spain
火花等离子烧结处理对冷喷涂金属基涂层的影响......................................... 143
K. Ito and K. Ogawa,
Tohoku University, Sendai, Japan
冷喷涂和粉末冶金工艺制备复合材料的微观组织和力学性能研究................ 149
T. Chandanayaka and F. Azarmi,
North Dakota State University, Fargo, ND, USA
viii
冷喷涂技术制备Ti-6Al-4V涂层的力学性能................................................... 155
A. List1, C. Lyphout2, M. Villa1, F. Gärtner1, and T. Klassen1
(1) Helmut Schmidt University, Hamburg, Germany
(2) University West, Trollhattan, Sweden
采用冷气动态喷涂技术修复航天器用离子气相沉积铝涂层的研究................ 161
D. MacDonald1, B. Jodoin1, S. Gaydos2, M. Pollack2, and J. Falkowski2
(1) University of Ottawa, Ottawa, Ontario, Canada
(2) The Boeing Company, USA
板翅式[紧凑]换热器用近网状散热片的冷喷涂制备....................................... 166
Y. Cormier1, P. Dupuis1, B. Jodoin1, and A. Corbeil2
(1) University of Ottawa, Ottawa, Ontario, Canada
(2) Brayton Energy Canada, Gatineau, Quebec, Canada
关于采用热喷涂和冷喷涂工艺在Fe-Si合金板上制备一层厚Fe沉积层的显微组织和力学性能的对比................................................................................... 172
Jaeick Kim1, Gyuyeol Bae1, Juyeon Won1, Changhee Lee1, Teasung Jun2, and
Jongkyo Choi2
(1) Hanyang University, Seoul 133-791, South Korea
(2) POSCO Technical Research Laboratories, Pohang, South Korea
冲击波感应喷涂工艺:工艺参数对涂层性能的影响....................................... 178
M. Karimi1, G.W. Rankin1, and B. Jodoin2
(1) University of Windsor, Windsor, Ontario, Canada
(2) University of Ottawa, Ottawa, Ontario, Canada
真空冷喷涂技术制备塑料光敏太阳能电池中TiO2散射层及其性能表征........ 184
X.-L. He1, G.-J. Yang1, C.-X. Li1, C.-J. Li1, and S.-Q. Fan2
(1) Xi'an Jiaotong University, Xi'an, Shaanxi, China
(2) The University of Queensland, QLD, Australia
冷喷涂用铝基、钛基、锌基、铁基合金粉末的粉尘爆炸性能............................. 190
K. Sakata1, K. Tagomori1, N. Sugiyama1, S. Sasaki1, Y. Shinya1, T. Nanbu2, Y. Kawashita2,
I. Narita3, and H. Miyahara3
(1) Fujikikosan Corporation, Kitakyushu, Japan
(2) Nissan Motor Co., Ltd., Yokosuka, Japan
(3) Kyushu University, Fukuoka, Japan
高压射流喷枪的设计和发展.......................................................................... 196
H. Katanoda1, B. Sun2, N. Ohno2, H. Fukanuma2, S. Kuroda3, M. Watanabe3,
and O. Ohashi3
(1) Kagoshima University, Kagoshima, Japan
(2) Plasma Giken Co., Ltd., Toshima-ku, Tokyo, Japan
(3) National Institute for Materials Science, Tsukuba, Ibaraki, Japan
冷喷涂制备的陶瓷基Al涂层的力学性能 .................................................. 200
K.H. Ko, J.O. Choi, and H. Lee,
Ajou University, Suwon, Republic of Korea
ix
运载气体成分对冷喷涂制备的钛涂层的显微组织和力学性能的影响............ 205
Y. Ichikawa1, K. Ogawa1, N. Nose2, Y. Nomura2, M. Takahashi2, and H. Amano2
(1) Tohoku University, Sendai, Japan
(2) Taiyo Nippon Sanso Corporation, Tokyo, Japan
冷喷涂铜涂层的力学各向异性 ………………………………......................... 210
Y. Watanabe, K. Atsumi, M. Yamada, and M. Fukumoto
Toyohashi University of Technology, Toyohashi, Aichi, Japan
具有更好的组织和腐蚀性能的Ni和Ni-Cu涂层的高压冷喷涂制备工艺.......... 215
H. Koivuluoto1, A. Milanti1, P. Vuoristo1, G. Bolelli2, and L. Lusvarghi2
(1) Tampere University of Technology, Tampere, Finland
(2) University of Modena and Reggio Emilia, Modena, Italy
冷喷涂技术的基础成本分析 ........................................................................ 221
O. Stier, Siemens AG, Berlin, Germany
冷喷涂Ni-Al2O3复合涂层的高温氧化........................................................... 227
C.J. Huang1, W.Y. Li1, M. Yu2, and H. Liao2
(1) Northwestern Polytechnical University, Xi’an, P.R. China
(2) Université de Technologie de Belfort-Montbéliard, Belfort, France
关于使用不同粒径粉末冷喷涂制备的不锈钢涂层的强度和耐磨性的研究..... 235
P. Vo1, E. Irissou1, S. Kudapa2, and M. Nestler2
(1) National Research Council Canada, Boucherville, Quebec, Canada
(2) Sulzer Metco (US) Inc., Troy, MI, USA
采用低压冷喷涂技术制备的粉末性能最优化的超硬WC金属陶瓷涂层.......... 241
T. Sonoda1, T. Kuwashima1, T. Saito1, K. Sato2, H. Furukawa2, J. Kitamura2, and D. Ito3
(1) Iwate Industrial Research Institute, Iwate, Japan
(2) Fujimi Incorporated, Gifu, Japan
(3) Spec, Iwate, Japan
利用Taguchi 以及Utility概念在低压冷喷涂涂层制备工艺中多级响应参数的优化研究...................................................................................................246
Tarun Goyal1, T.S. Sidhu2, and R.S. Walia3
(1) SUS College of Engineering and Technology, Tangori, Mohali, India
(2) Shaheed Bhagat Singh College of Engineering & Technology, Ferozepur, Punjab, India
(3) Delhi Technological University, Delhi, India
低压冷喷涂技术制备锌基复合材料的涂层性能及耐久性研究....................... 252
H. Koivuluoto1, J. Ketola1, A. Milanti1, P. Vuoristo1, L.-L. Descurninges2,
N. De Dave-Fabregue2, and M. Jeandin2
(1) Tampere University of Technology, Tampere, Finland
(2) MINES ParisTech, Evry, France
x
采用冷气体喷涂技术在Al2O3 基体上喷涂Al涂层纵板的形成和粘结机制...... 258
B. Wielage1, R. Drehmann1, T. Grund1, D. Rafaja2, T. Schucknecht2, and K. Manygoats2
(1) Chemnitz University of Technology, Chemnitz, Germany
(2) Freiberg University of Mining and Technology, Freiberg, Germany
高压热喷涂钛合金的涂层结构和喷涂颗粒的速度测量 ................................ 263
S. Kuroda1, R.M. Molak1, M. Watanabe1, H. Araki1, H. Katanoda2, B. Sun3, N. Ohno3,
and H. Fukanuma3
(1) National Institute for Materials Science, Tsukuba, Ibaraki, Japan
(2) Kagoshima University, Korimoto, Kagoshima, Japan
(3) Plasma Giken Co., Ltd., Toshima-ku, Tokyo, Japan
冷喷涂涂层的热应力和残余应力分析........................................................... 269
Z. Arabgol1, H. Assadi1, T. Schmidt2, F. Gärtner2, and T. Klassen2
(1) Tarbiat Modares University, Tehran, Iran
(2) Helmut Schmidt University, Hamburg, Germany
低压冷喷涂技术可选用的设备 .................................................................... 275
A. Shkodkin, A. Kashirin, O. Klyuev, and T. Buzdygar
Obninsk Center for Powder Spraying, Obninsk, Russia
真空冷喷涂过程中震动感应塑性变形对氧化铝沉积层的影响....................... 279
Hyungkwon Park, Fei Cao, Juhyuk Kwon, and Changhee Lee,
Hanyang University, Seoul, Republic of Korea
液体喷料对冷喷涂喷嘴后端的影响…………………….................................. 292
E. Farvardin1, M. Karimi2, J. Villafuerte2, and A. Dolatabadi1
(1) Concordia University, Montreal, Quebec, Canada
(2) CenterLine Ltd., Windsor, Ontario, Canada
冷气体喷涂过程中Fe40Al 颗粒的变形和粘附.............................................. 297
N. Cinca1, A. List1, F. Gärtner1, J. Fernández2, J.M. Guilemany2, and T. Klassen1
(1) Helmut Schmidt University, Hamburg, Germany
(2) Universitat de Barcelona, Barcelona, Spain
电子器件与半导体应用
显微组织对热喷涂铁磁体复合材料电磁性质的影响...................................... 302
E. Brousse-Pereira, J. Neige, S. Pereira, K. Wittmann-Teneze, A.L. Adenot-Engelvin,
and L. Bianchi,
CEA DAM Le Ripault, Monts, France
新型氧化钇粉末及其致密高纯氧化钇涂层的APS制备 ................................ 307
A. Allimant1, D. Billières1, and H. Wallar2
(1) Saint-Gobain Coating Solutions, Avignon, France
(2) Saint-Gobain Coating Solutions, Worcester, MA, USA
xi
等离子喷涂氧化铝涂层的电学性能和力学性能的对比研究........................... 312
T. Tosaki, Y. Kobayashi, K. Ohta, and J. Kitamura,
Fujimi Incorporated, Gifu, Japan
热喷涂Fe-(β-SiC/SiO2)涂层的显微组织与优异性能的多尺度分析................ 318
Xiaojing Yuan, Bailin Zha, and Hangong Wang,
Xi’an Research Institute of Hi-Tech, Shaanxi, P.R. China
制备方法与工艺
热喷涂操作过程中工件热应力与机械手轨迹的关系模型.............................. 329
R. Bolot, S. Deng, Z. Cai, H. Liao, and G. Montavon,
IRTES-LERMPS, UTBM, Belfort, France
PS-PVD的高生产率工艺研究 ..................................................................... 335
A. Barth, M. Gindrat, and S. Usai,
Sulzer Metco AG, Switzerland
表面污染对HVOF涂层结合强度的影响 ....................................................... 339
J. Barr1, C. Estrada1, and B. White2
(1) Watson Laboratories, Houston, TX, USA
(2) Watson Grinding & MFG, Houston, TX, USA
采用双电线电弧喷涂工艺在金属基泡沫基体上制备高密度涂层的研究进展.. 345
S. Salavati, R. Rezaey, L. Pershin, T.W. Coyle, and J. Mostaghimi,
University of Toronto, Toronto, ON, Canada
研究进展
B4C增强基的爆燃喷涂Al涂层的特征和研究进展......................................... 351
W. Tillmann1, P.S. Hollingsworth1, G. Fischer2, and J. Nellesen2
(1) Technische Universität Dortmund, Dortmund, Germany
(2) RIF e.V. Institut für Forschung und Transfer, Dortmund, Germany
常规精细纳米结构WC-12Co粉末HVOF涂层的滑动摩擦行为和磨损作用.... 357
W. Tillmann, I. Baumann, P. Hollingsworth, and L. Hagen
Technische Universität Dortmund, Dortmund, Germany
单阳极等离子喷涂喷枪的计算机仿真模拟.................................................... 365
T. Liu, S. Deng, M.-P. Planche, and G. Montavon,
IRTES-LERMPS, Belfort, France
xii
等离子喷涂锆涂层上采用热等静压Al包覆层的渗透粘接.............................. 377
K. Hollis and P. Dickerson,
Los Alamos National Laboratory, Los Alamos, NM, USA
脉冲电流电线电弧喷涂工艺的研究 ............................................................. 383
S. Kirner, J. Schein, and G. Forster,
Universitaet der Bundeswehr Muenchen, Neubiberg, Germany
HVAF WC-Co-Cr 涂层的研究和表征以及与电镀硬质铬涂层的对比............ 389
K. Bobzin1, N. Kopp1, T. Warda1, M. Schäfer1, and A. Verstak2
(1) RWTH Aachen University, Aachen, Germany
(2) Kermetico Inc., Benicia, CA, USA
等离子体直接暴露方式下的陶瓷热喷涂涂层…………………....................... 395
H. Yokota and M. Inaba, TOCALO Co., Ltd., Hyogo, Japan
数值模拟研究:气体运行对三阳极大气等离子喷涂系统流动特性的影响 ..... 400
K. Bobzin, N. Kopp, T. Warda, M. Schäfer, and M. Öte,
RWTH Aachen University, Aachen, Germany
等离子喷涂氧化铝涂层的显微特征和力学性能............................................. 406
T. Sakoda, M. Inaba, and K. Taguchi,
TOCALO Co., Ltd., Hyogo, Japan
真空冷喷涂制备纳米-TiO2涂层与基体界面的T EM表征 .............................. 412
Hai-Long Yao, Guan-Jun Yang, Xue-Long He, Cheng-Xin Li, and Chang-Jiu Li,
Xi’an Jiaotong University, Xi’an, Shaanxi, China
高速悬浮液火焰喷涂中的液体给料行为对于纳米结构涂层发展的作用分析.. 418
Ebrahim Gozali, Spyros Kamnis, and Sai Gu,
Xi'an Jiaotong-Liverpool University
采用常规纳米结构材料进行热喷涂和焊接的涂层的磨损性能研究................ 424
C.R.C. Lima1, B.V. Bette1, F. Camargo2, H.C. Fals3, and V.A. Ferraresi4
(1) Methodist University of Piracicaba, São Paulo, Brazil
(2) OGRAMAC Surface Engineering, São Paulo, Brazil
(3) Oriente University, Santiago de Cuba, Cuba
(4) Federal University of Uberlândia, Minas Gerais, Brazil
致密陶瓷涂层的HVOF喷涂制备................................................................... 429
Jin-Hong Kim, Byeong-Geun Seong, and Hyung-Jun Kim,
Research Institute of Industrial Science & Technology, Pohang, South Korea
xiii
采用常压微波等离子的低能等离子喷涂工艺的研究进展.............................. 433
T. Yasui, A. Redza, and M. Fukumoto,
Toyohashi University of Technology, Toyohashi, Japan
不同双电线电弧喷涂喷嘴配合背景导向的纹影技术在喷射流中流态的表征. 437
W. Tillmann, A. Mohamed, A. Nassir, L. Hagen, and H.G. Rademacher,
Technische Universität Dortmund, Dortmund, Germany
当前采用的压痕法评估热喷涂涂层粘结强度的标准化工序.......................... 451
Y. Yamazaki1, M. Suzuki2, M. Arai3, Y. Miyashita4, and H. Waki5
(1) Niigata Institute of Technology, Kashiwazaki, Japan
(2) The National Institute of Advanced Industrial Science and Technology, Tsukuba, Japan
(3) Central Research Institute of Electric Power Industry, Yokosuka, Japan
(4) Nagaoka University of Technology, Nagaoka, Japan
(5) Iwate University, Morioka, Japan
不同环境下WC-CoCR热喷涂涂层的干摩擦的演变...................................... 457
J.A. Wesmann1, R. Johnsen1, N. Espallargas1, J. Herland2, and D. Twist2
(1) NTNU Tribology Laboratory, Trondheim, Norway
(2) Aker Solutions AS, Tranby, Norway
真空等离子喷涂过程中Ti-6AL-4V合金的成核和生长................................... 460
H.R. Salimijazi1, Z.A. Mousavi1, M.A. Golozar1, J. Mostaghimi2, and T. Coyle2
(1) Isfahan University of Technology, Isfahan, Iran
(2) University of Toronto, Toronto, Canada
超音速火焰喷涂和等离子喷涂氧化铝-氧化铬陶瓷涂层电熔粉碎粉末的结构与性能................................................................................................................. 465
P. Vuoristo1, K. Niemi1, V. Matikainen1, L. Hyvärinen1, H. Koivuluoto1, L.-M. Berger2,
S. Scheitz3, and I. Shakhverdova3
(1) Tampere University of Technology, Tampere, Finland
(2) Fraunhofer Institute for Material and Beam Technology, Dresden, Germany
(3) Dresden University of Technology, Dresden, Germany
悬浮液及溶液等离子喷涂技术
采用热纳米颗粒喷涂和细线方式进行的材料表面的结构修复.................... 471
S. Kirihara, Osaka University, Ibaraki, Osaka, Japan
采用大气和悬浮等离子喷涂技术形成的电催化活性的多孔镍基焊条涂层.............................................................................................................. 475
M. Aghasibeig1, M. Mousavi1, F. Ben Ettouill1, R. Wuthrich1, A. Dolatabadi1, and C. Moreau2
(1) Concordia University, Montreal, Quebec, Canada
(2) National Research Council, Boucherville, Quebec, Canada
xiv
等离子喷涂过程中悬浮喷射工艺的数值研究.............................................. 481
F. Jabbari, M. Jadidi, R. Wuthrich, and A. Dolatabadi
Concordia University, Montreal, Quebec, Canada
表面工程
热喷涂涂层3D磨损图分析........................................................................... 487
W. Tillmann, W. Luo, and U. Selvadurai,
TU Dortmund University
等离子喷涂-物理气相沉积法制备La1-xSrxCoyFe1-yO3-δ薄膜    
如多孔金属支架的氧离子转运膜................................................................ 493
M.O. Jarligo, G. Mauer, M. Bram, S. Baumann, and R. Vaßen,
Forschungszentrum Jülich GmbH, Jülich, Germany
表面预处理对铝合金力学性能的影响......................................................... 499
A. Lamraoui, S. Costil, and C. Langlade,
Université de Technologie de Belfort – Montbéliard, Belfort, France
硬铬替代硬质合金沉积工艺:
高速火焰喷涂和超音速火焰喷涂喷涂工艺的对比研究................................. 506
C. Lyphout1, J. Kitamura2, K. Sato2, J. Yamada2, and S. Dizdar3
(1) University West, Production Technology West, Trollhättan, Sweden
(2) Fujimi Incorporated, Japan
(3) Höganäs Sweden AB, Sweden
等离子喷涂纳米结构和传统Al2O3-13TiO2涂层的显微组织和力学性能................................................................................................................ 512
Wojciech Żórawski1, Anna Góral2, Otakar Bokuvka3, and Katarzyna Berent2
(1) Kielce University of Technology, Poland,
(2) Institute of Metallurgy and Materials Science PAS, Cracow, Poland
(3) University of Zilina, Slovakia
截面划痕实验法测试等离子喷涂陶瓷涂层的粘结/粘附强度......................... 516
Eungsun Byon1, Soo-Wohn Lee2, Junya Kitamura3, and Kenneth Holmberg4
(1) Korea Institute of Materials Science, Changwon, Korea
(2) Sunmoon University, Asan, Korea
(3) Fujimi Incorporated, Kakamigahara, Japan
(4) VTT Technical Research Centre of Finland, VTT, Finland
实验室用金属膜涂层的生物膜的形成与评估................................................ 520
H. Kanematsu1, T. Kogo1, D. Kuroda1, H. Itoh1, and S. Kirihara2
(1) Suzuka National College of Technology, Suzuka, Mie, Japan
(2) Osaka University, Ibaraki, Osaka, Japan
碳纤维表面处理技术对垂直形变和涂层粘结强度的影响.............................. 526
Amirthan Ganesan, Mohammed Shahien, Motohiro Yamada, and Masahiro Fukumoto,
Toyohashi University of Technology, Toyohashi, Aichi, Japan
xv
外部送粉的双丝电弧喷涂对于控制涂层组分的应用..................................... 532
W. Tillmann, M. Abdulgader, and L. Hagen,
Technische Universität Dortmund, Dortmund, Germany
超音速喷涂的不锈钢涂层渗碳-渗氮表面强化............................................... 538
Gayoung Park, Gyuyeol Bae, and Changhee Lee,
Hanyang University, Seoul, South Korea
用于土壤耕作的热堆焊材料的耐磨性........................................................... 543
Senad Dizdar and Barbara Maroli,
Höganäs AB, Höganäs, Sweden
含氯的铁基热喷涂涂层的磨损和耐腐蚀性研究............................................ 550
J. Laurila, A. Milanti, K. Niemi, and P. Vuoristo,
Tampere University of Technology, Tampere, Finland
涡轮涂层
杂质含量对 氧化镝和氧化钇增强氧化锆热障涂层的抗烧结性能的影响........ 557
N. Curry1, Wyszomir Janikowski2, and N. Markocsan1
(1) University West, Trollhättan, Sweden
(2) University of Manchester, Manchester, UK
γ-TiAl的多层抗氧化保护系统耐久性的提高................................................ 564
K. Bobzin, N. Kopp, T. Warda, and T.F. Linke,
RWTH Aachen University, Aachen, Germany
高速大气等离子喷涂制备MCrAlY粘结层 .................................................... 570
G. Mauer, D. Sebold, and R. Vaßen,
Forschungszentrum Jülich, Jülich, Germany
等离子喷涂参数对热障涂层制备和组织性能的影响...................................... 577
M.L. Sesso, C.C. Berndt, and Y.C. Wong,
Swinburne University of Technology, Australia
关于提高PS-PVD法制备的热障涂层的热循环持久性的研究....................... 583
S. Rezanka, G. Mauer, and R. Vaßen,
Forschungszentrum Jülich, Jülich, Germany
热喷涂陶瓷涂层中热导率的三维和二维分析模型的对比研究....................... 590
G.-J. Yang, Y.-C. Xie, H. Xie, C.-X. Li, and C.-J. Li,
Xi'an Jiaotong University, Xi'an, Shaanxi, China
xvi
表层-粘结层界面的粗糙度对热障涂层的应力和寿命的影响.......................... 596
M. Gupta, K. Skogsberg, and P. Nylén,
University West, Trollhättan, Sweden
等离子喷涂CoNiCrAlY-BN耐磨涂层的摩擦性质表征................................... 602
E. Irissou1, A. Dadouche2, and R.S. Lima1
(1) National Research Council Canada, Boucherville, Quebec, Canada
(2) National Research Council Canada, Ottawa, Ontario, Canada
通过优化喷涂参数控制YSZ涂层的的抗冲蚀性能.......................................... 608
A. Hawkins1, R. Wellman1, M. Craig1, J.R. Nicholls1, K. Laul2, and R. Shankar2
(1) Cranfield University, Cranfield, Bedfordshire, UK
(2) Chromalloy, Orangeburg, NY, USA
展板
碳纳米纤维-金属粉末制备的新方法和其在热喷涂涂层中的应用.................. 620
D.R. Vidal, I.G. Cano, J. Fernández, and J.M. Guilemany,
Universitat de Barcelona, Barcelona, Spain
关于金属EDTA复合物热喷涂的研究............................................................ 626
Yu Li1, Masahiro Noguchi1, Hiroki Akasaka2, Atsushi Nakamura3, and Hidetoshi Saitoh4
(1) Nippon Steel & Sumikin Hardfacing Co., Ltd., Fukuoka, Japan
(2) Tokyo Institute of Technology, Tokyo, Japan
(3) Chubu Chelest Co. Ltd., Mie, Japan
(4) Nagaoka University of Technology, Niigata, Japan
冷喷涂Al-Al2O3 涂层的摩擦系数改进........................................................... 631
K.H. Ko, J.O. Choi, and H. Lee,
Ajou University, Suwon, Republic of Korea
在大气和低压条件下反应等离子喷涂制备Fe-Al2O3-FeAl2O4 和FeAl涂层的形成机理.......................................................................................................... 636
L. Zhu1, R. Bolot2, H. Liao2, C. Coddet2, N. Zhang3, and Q. Zhao4
(1) Mariee-CFHI, Tianjin, China
(2) LERMPS-UTBM, Belfort, France
(3) Shenyang University of Technology, Shenyang, China
(4) Tianjin University of Science & Technology, Tianjin, China
热喷涂型金属泡沫热交换器的热转移数值模拟............................................. 642
M. Taheri, S. Chandra, and J. Mostaghimi,
University of Toronto, Toronto, Ontario, Canada
xvii
模拟等离子气氛中固溶性能对蒸汽液滴析出的影响...................................... 648
L.S. Xu and Y.G. Shan,
University of Shanghai for Science and Technology, China
低温氧燃料喷涂过程中的气体动力学和粒子行为的数值模拟....................... 654
C.H. Shen1, Y.G. Shan1, and L.B. Jia2
(1) University of Shanghai for Science and Technology, Shanghai, China
(2) Siemens (Shanghai) Gas Turbine Parts Ltd., Shanghai, China
基体硬度和喷射角对冷喷涂Ti颗粒的沉积行为的影响.................................. 660
S. Yin1, X.K. Suo1, H.L. Liao1, X.F. Wang2, and W.Y. Li3
(1) Université de Technologie Belfort-Montbéliard, Belfort, France
(2) Dalian University of Technology, Dalian, Liaoning, China
(3) Northwestern Polytechnical University, Xi'an, Shaanxi, China
大气等离子喷涂Fe-40Al纳米级粉末及其涂层的组织和磁性能..................... 666
B. Song1, S.-J. Dong1, N.-E. Fenineche1, H.-L. Liao1, C. Coddet1, and T. Grosdidier2
(1) IRTES-LERMPS, Belfort, France
(2) LETAM, Metz, France
CoNiCrAlY涂层等离子喷涂过程中干冰爆破技术的参数优化研究................ 672
S.-J. Dong1, B. Song1, H.-L. Liao1, C. Coddet1, and B. Hansz2
(1) IRTES-LERMPS, UTBM, France
(2) HMRexpert, France
冷喷涂法制备的WC颗粒原位增强FeAl金属间化合物基复合涂层的表征...... 677
H.-T. Wang1, G.-C. Ji1, and R.-Y. Wang2
(1) School of Mechanical and Materials Engineering, Jiujiang, Jiangxi, P.R. China
(2) Jiujiang University Library, Jiujiang, Jiangxi, P.R. China
陶瓷组分对冷喷涂Al/SiCp复合涂层的组织和磨损行为的影响...................... 684
H.-T. Wang1, G.-C. Ji1, and R.-Y. Wang2
(1) School of Mechanical and Materials Engineering, Jiujiang, Jiangxi, P.R. China
(2) Jiujiang University Library, Jiujiang, Jiangxi, P.R. China
Fe基非晶材料在真空冷喷涂过程中的沉积行为............................................ 690
Juhyuk Kwon, Hyungkwon Park, and Changhee Lee,
Hanyang University, Seoul, Republic of Korea
xviii
SiC颗粒尺寸和粒径组成对冷喷涂AZ91D/SiCp复合涂层的显微组织和性能的影响.................................................................................................................. 695
X.-K. Suo1, M. Yu1, M.-P. Planche1, H.-L. Liao1, and Q.-L. Suo2
(1) Université de Technologie de Belfort-Montbéliard, France
(2) Beijing University of Aeronautics and Astronautics, Beijing, China
基于耦合热力学欧拉模型对冷喷涂过程中临界速度的预测........................... 701
F.F. Wang1, W.Y. Li1, C.J. Huang1, M. Yu2, and H.L. Liao2
(1) Northwestern Polytechnical University, Xi’an, Shaanxi, P.R. China
(2) Université de Technologie de Belfort-Montbéliard, Belfort, France
基体形状的复杂性对WC-12Co (2-10 μm)细粉HVOF喷涂涂层性能的影响.................................................................................................................. 707
W. Tillmann1, P. Hollingsworth1, I. Baumann1, S. Flossbach1, H. Müller2, and T. Wiederkehr2
(1) Institute of Materials Engineering, TU Dortmund, Germany
(2) Computer Science VII - Computer Graphics, TU Dortmund, Germany
煤浆管道线球阀的耐磨涂层.......................................................................... 712
L. Pershin1, J. Mostaghimi1, Afshin Maknoni2, Y.S. Ma3, Q. Gao3, Z.D. Chang3,
H.B. Liu3, and Q.M. Wu3
(1) University of Toronto, Toronto, Canada
(2) Metal Morphosis Specialty Metals Inc., Cambridge, ON, Canada
(3) Wuzhong Instruments, Wuzhong, China
冷喷涂系统气体加热器的计算机模拟........................................................... 717
Huang Guosheng1, Gu Daming1, Li Xiangbo2, and Xing Lukuo2
(1) Harbin Institute of Technology, Harbin, China
(2) Science and Technology on Marine Corrosion and Protection Laboratory, Qingdao, China
作者索引....................................................................................................... 723


北矿新材科技有限公司