cial damage in EB- PVD thermal bamier coatings due to thermal cy- Hubin. Investigation on hot-fatigue behaviors of gradient thermal cling. Materials Science and Engineering, 1997: 231: 34-41 barrier coatings by EB-PVD. Surface and Coating Techology 18 Bi Xianfang, Xu Huibin, Gong Shengkai. Investigation of 2001; 148: 110-116 the failure mechanism of thermal barrier coatings prepared by ele 28 Mbvchan M, Rudoy Yu. Composition, structure and ron beam physical vapor deposition. Surface and Coating Techplo- properties of gradient thermal barrier coatings(IBCs)produced by gy,2000;130:1 electon beam physical vapor deposition(EB-PVD). Materials and 19 Gn Hongbo, Xu Hubin, Bi Xianfang, Gong Shengkai. Design, 1998; 19: 253-258 Preparation of Al20, 3 YSZ composite coating by FB-PVD.Materials 29 Schulz U. Schmucker M. Microstructure of ZrO thermal Science and Engineering: A. 2002: 325: 389-393 barrier coatings applied by EB- PVD. Materials Science and Engi- 20 Srauss D, Miller G, Schumacher G et al. Oxide scale neering: A, 2000; 276: 1-8 growth on MCrAlY bond coatings after pulsed electron beam treat- 30 Yanar NM. Meier G H. Pettit F S. The influence of ment and deposition of EBPVD- TBC. Surface and Coating Techplo- platinum on the failure of EBPVD YSZ TBCs on NiCoCrAlY bond coats Scripta Materialia, 2002: 46: 325-330 21 Gun Hongbo gng Shengkai. Xu Hubin. Evaluation of 31 Mattews A, Young SJ, Joseph M et al. Partially yttria botfatigue behaviors of EB- PVD gradient thermal barnier coatings. stabilized zirconia coatings produced under plasmarassisted EBPVD Materials Science and Engineering: A, 2002; 325: 261-269 with bipolar pulsed bias and under electron bombardment-assisted 22 Sohn YH. KimJH. Jordan eh. Gell M. thermel positive bias conditions. Surface and Coating Techology, 1997, cling of EB-PVDy MCrAl Y thermal bainier coatings: I. Microstruc- 94: 123-130 tural development and spallation mechanisms. Surface and Coating 32 Walter, Mark E, Eigermann B. The mechanical response Techology, 2001 of three HB- PVd thermal barmer coating microstructures. Matenals 23黄乾尧李汉康.高温合金治金工业出版社,2000 Science and engineering:A,2000;282:49~ 9~150 33 Kor KA, Dong ZL, Gl Yw. Influence of oxide mix 24 Metzner, Christoph, Scheffel. Special aspects concerming tures on mechanical properties of plasma sprayed functionally graded the electron beam deposition of multicomponent alloys. Surface and coating. Thin Solid Films 2000; 368: 86-92 Coating Techology, 2001: 146: 491--497 4 Khor KA, Gu Y W. Thermal properties of plasmar sprayed 25山口正治,马越佑吉.金属间化合物.科学出版社, functionally graded thermal barrier coatings. Thin solid films, 1991:1~48 2000;372:104~113 26仲增墉叶恒强.金属间化合物.机械工业出版社 35 Gho Pengtao, Meng L J, Dos santos M P et al. Study of 1992:1~10 ZO/Al2O3 multilayers Vacuum 2002: 64: 267-273 27 Gn nebo. gong Shengkai, Zhou Chungeng (编辑任涛) (上接第11页) 19 Kaya C, Gu X, Al-Dawery 1, Butler E G Microstructural America Ceramic Society, 1997, 80(8): 2 1362 140 development of woven mullite fibre-reinforced mullite ceramic matrix 22 Radsick T. Saruhan B. Schneider H. Damage tolerant ox- composites by infiltration processing. Science and Techology of Ad- ide/oxide fiber laminate composites. Journal of the European Ce- nced Materials, 2002: 3(1): 35-44 ramic society,2000;20(5):545~550 20 Levi C G, Yang James Y Processing and performance of 23 Saruhan B. Simple and effective processing route for fabri- an all-oxide ceramic composites. Journal of Amenca Ceramic Soci- cating a continupus fiber reinforced ceramic matrix composite. Mate- ety,1998:81(8):2077~2086 rials Techology,199510(11~12)238~241 21 Martin S, Hartmut S. Thermal ceramic degradation of fiber coatings in mullite-fiberreinforced mullite composites. Journal of (编辑马晓艳 宇航材料工艺2003年第5期 c1994-2009ChinaAcademicJounalElectronicPublishingHouseallrightsreservedhttp://www.cnki.netcial damage in EB2PVD thermal barrier coatings due to thermal cy2 cling. Materials Science and Engineering ,1997 ; 231 :34～41 18 Bi Xianfang , Xu Huibin , Gong Shengkai. Investigation of the failure mechanism of thermal barrier coatings prepared by elec2 tron beam physical vapor deposition. Surface and Coating Technolo2 gy , 2000 ; 130 : 122～127 19 Guo Hongbo , Xu Huibin , Bi Xianfang , Gong Shengkai. Preparation of Al2O3 ∃ YSZ composite coating by EB2PVD. Materials Science and Engineering : A , 2002 ; 325 :389～393 20 Strauss D , Miller G, Schumacher G et al. Oxide scale growth on MCrAlY bond coatings after pulsed electron beam treat2 ment and deposition of EBPVD2TBC. Surface and Coating Technolo2 gy , 2001 ; 135 :196～201 21 Guo Hongbo , Gong Shengkai , Xu Huibin. Evaluation of hot2fatigue behaviors of EB2PVD gradient thermal barrier coatings. Materials Science and Engineering : A , 2002 ; 325 :261～269 22 Sohn Y H , Kim J H , Jordan E H , Gell M. Thermal cy2 cling of EB2PVD/ MCrAlY thermal barrier coatings: I. Microstruc2 tural development and spallation mechanisms. Surface and Coating Technology , 2001 ; 146 : 70～78 23 黄乾尧 ,李汉康. 高温合金. 冶金工业出版社 ,2000 : 9～150 24 Metzner , Christoph , Scheffel. Special aspects concerning the electron beam deposition of multi2component alloys. Surface and Coating Technology , 2001 ; 146 :491～497 25 山口正治 ,马越佑吉. 金属间化合物. 科学出版社 , 1991 :1～48 26 仲增墉 ,叶恒强. 金属间化合物. 机械工业出版社 , 1992 :1～10 27 Guo Hongbo , Gong Shengkai , Zhou Chungeng , Xu Huibin. Investigation on hot2fatigue behaviors of gradient thermal barrier coatings by EB2PVD. Surface and Coating Technology , 2001 ; 148 :110～116 28 Movchan M , Rudoy Yu. Composition , structure and properties of gradient thermal barrier coatings (TBCs) produced by electron beam physical vapor deposition ( EB2PVD) . Materials and Design ,1998 ; 19 :253～258 29 Schulz U , Schmucker M. Microstructure of ZrO2 thermal barrier coatings applied by EB2PVD. Materials Science and Engi2 neering : A ,2000 ; 276 : 1～8 30 Yanar N M , Meier G H , Pettit F S. The influence of platinum on the failure of EBPVD YSZ TBCs on NiCoCrAlY bond coats. Scripta Materialia , 2002 ; 46 :325～330 31 Mattews A , Young S J , Joseph M et al. Partially yttria2 stabilized zirconia coatings produced under plasma2assisted EBPVD with bipolar pulsed bias and under electron bombardment2assisted positive bias conditions. Surface and Coating Technology , 1997 ; 94 :123～130 32 Walter , Mark E , Eigermann B. The mechanical response of three EB2PVD thermal barrier coating microstructures. Materials Science and Engineering : A , 2000 ; 282 :49～58 33 Khor K A , Dong ZL , Gu Y W. Influence of oxide mix2 tures on mechanical properties of plasma sprayed functionally graded coating. Thin Solid Films ,2000 ; 368 :86～92 34 Khor K A ,Gu YW. Thermal properties of plasma2sprayed functionally graded thermal barrier coatings. Thin Solid Films , 2000 ; 372 :104～113 35 Gao Pengtao , Meng L J , Dos santos M P et al. Study of ZrO2/ Al2O3 multilayers. Vacuum ,2002 ;64 :267～273 ( 编辑 任涛 ) (上接第 11 页) 19 Kaya C , Gu X ,Al2Dawery I ,Butler E G. Microstructural development of woven mullite fibre2reinforced mullite ceramic matrix composites by infiltration processing. Science and Technology of Ad2 vanced Materials , 2002 ;3 (1) :35～44 20 Levi C G, Yang James Y. Processing and performance of an all2oxide ceramic composites.Journal of America Ceramic Soci2 ety , 1998 ;81 (8) :2 077～2 086 21 Martin S ,Hartmut S. Thermal ceramic degradation of fiber coatings in mullite2fiber2reinforced mullite composites. Journal of America Ceramic Society , 1997 ;80 (8) :2 136～2 140 22 Radsick T, Saruhan B , Schneider H. Damage tolerant ox2 ide/ oxide fiber laminate composites. Journal of the European Ce2 ramic Society , 2000 ;20 (5) :545～550 23 Saruhan B. Simple and effective processing route for fabri2 cating a continuousfiber reinforced ceramic matrix composite. Mate2 rials Technology , 1995 ;10 (11～12) :238～241 ( 编辑 马晓艳 ) — 20 — 宇航材料工艺 2003 年 第 5 期 © 1994-2009 China Academic Journal Electronic Publishing House. All rights reserved. http://www.cnki.net