简要介绍了高温防护涂层的发展进程,特别关注航空航天领域中几种常用的高温涂层,包括扩散涂层、MCrAlY包覆涂层和热障涂层;介绍了新概念涂层和玻璃基复合涂层等特色高温防护涂层;综述了国内外关于包括抗氧化或耐腐蚀涂层、热障涂层和扩散阻挡层等高温涂层的最新研究进展;还讨论了高温涂层未来的发展.
参考文献
| [1] | Goward G W.Progress in coatings for gas turbine airfoils[J].Surf.Coat.Technol.,1998,108-109(1-3):73 |
| [2] | Goward G W,Boone D H.Mechanisms of formation of diffusion aluminide coatings on nickel-base supperalloys[J].Oxid.Met.,1971,3(5):475 |
| [3] | Streiff R,N' Gandu Muamba J M,Boone D H.Surface morphology of diffusion aluminide coatings[J].Thin Solid Films,1984,119(3):291 |
| [4] | Mevrel R,Duret C,Pichoir R.Pack cementation processes[J].Mater.Sci.Technol.,1986,2(3):201 |
| [5] | Kircher T A,Mcmordie B G,Mccarter A.Performance of a siliconmodified aluminide coating in high-temperature hot corrosion test coditions[J].Surf.Coat.Technol.,1994,68-69:32 |
| [6] | Young S G,Deadmore D L.An experimental low-cost silicon aluminide high-temperature coating for super-alloys[J].Thin Solid Films,1980,73(2):373 |
| [7] | Grunling H W,Bauer R.The role of silicon in corrosion-resistant high-temperature coatings[J].Thin Solid Films,1982,95(1):3 |
| [8] | Meier G H,Pettit F S.High temperature corrosion of alumina-forming coatings for supperalloys[J].Surf.Coat.Technol.,1989,39-40(1-3):76 |
| [9] | Tawancy H M.Role of platinum in aluminide coatings[J].Surf.Coat.Technol.,1991,49(1-3):1 |
| [10] | Nicholls J R.Designing oxidation-resistant coatings[J].JOM,2000,52(1):28 |
| [11] | 李美栓.金属的高温腐蚀[M].北京:冶金工业出版社,2001:432 |
| [12] | 李铁藩.金属的氧化与腐蚀[M].北京:化学工业出版社,2003:292 |
| [13] | 内尔·伯克斯,杰拉德·迈耶,弗雷德·佩蒂特著,辛丽,王文译.金属高温氧化导论[M].北京:高等教育出版社,2010:248 |
| [14] | 朱日彰,何业东,齐慧滨.高温腐蚀及耐高温腐蚀材料[M].上海:上海科学技术出版社,1995.1 |
| [15] | 王福会.高温合金微晶涂层[D].沈阳:中国科学院金属腐蚀与防护研究所,1992 |
| [16] | 楼翰一.高温合金微晶涂层的发展[J].吉林工学院学报,1997,18(3):1 |
| [17] | 王福会,楼翰一,吴维(叟).高温合金微晶涂层研究之进展[J].真空科学与技术,1994,14(4):287 |
| [18] | Lou H Y,Wang F H,Xia B J,et al.High-temperature oxidaton resistance of sputtered micro-grain supperalloy K38G[J].Oxid.Met.,1992,38(3-4):299 |
| [19] | Wang F H.The effect of nanocrystallization on the selective oxidation and adhersion of Al2O3 scales[J].Oxid.Met.,1997,48(3-4):215 |
| [20] | Lou H Y,Tang Y J,Sun X F,et al.Oxidation behavior of sputtered microcyrstalline coating of supperalloy K17F at high temperature[J].Mater.Sci.Eng.,1996,A207(1):121 |
| [21] | Wang F H,Yong D J.Effect of nanocrystallization on the corrosion resistance of K38G supperalloy in CO+CO2 atmospheres[J].Oxid.Met.,1997,48(5-6):497 |
| [22] | Geng S J,Wang F H,Zhu S L,et al.Hot-corrosion resistance of a sputtered K38G nanocrystalline coating in molten sulfate at 900 ℃[J].Oxid.Met.,2002,57(5-6):549 |
| [23] | Geng S J,Wang F H,Zhang S.Cross-sectional oxide distribution of cast IN738 and its sputtered coating at 1000 ℃[J].Surf.Coat.Technol.,2003,167(2-3):161 |
| [24] | Wang F H,Lou H Y.Oxidation behaviour and scale morphology of normal-grained Co30Cr5Al alloy and its sputtered microcrystalline coating[J].Mater.Sci.Eng.,1990,A129:279 |
| [25] | Suzuki A,Rae C M F.Secondary reaction zone formations in coated Ni-base single crystal superalloys[C].USA:IOP Publishing,2009:1 |
| [26] | Das D K,Murphy K S,Ma S W,et al.Formation of secondary reaction zones in diffusion aluminide-coated Ni-base single-crystal superalloys containing ruthenium[J].Metall.Mater.Trans.,2008,39(7)A:1647 |
| [27] | Das D K,Gleeson B,Murphy K S,Ma S,et al.Formation of secondary reaction zone in ruthenium bearing nickel based single crystal superalloys with diffusion aluminide coatings[J].Mater.Sci.Technol.,2009,25(2):300 |
| [28] | Handoko L T,Siregar M R T.International Workshop on Advanced Material for New and Renewable Energy[M].USA:American Insitute of Physics,2009:63 |
| [29] | Kawagishi K,Sato A,Harada H.A concept for the EQ coating system for nickel-Based superalloys[J].JOM,2008,60(7):31 |
| [30] | Sato A,Harada H,Kawagishi K.Development of a New Bond Coat"EQ Coating" System[J].Metall.Mater.Trans.,2006,37(3)A:789 |
| [31] | Lee W Y,Stinton D P.Concept of Functionally graded materials for advanced thermal barrier coating applications[J].J.Am.Ceram.Soc.,1996,79(12):3003 |
| [32] | Kim J H,Kim M C,Park C G.Evaluation of functionally graded thermal barrier coatings fabricated by detonation gun spray technique[J].Surf.Coat.Technol.,2003,168(2-3):275 |
| [33] | Xiong H P,Kawasaki A,KanY S,et al.Experimental study on heat insulation performance of functionally graded metal/ceramic coatings and their fracture behavior at high surface temperatures[J].Surf.Coat.Technol.,2005,194(2-3):203 |
| [34] | Hamatani H,Shimoda N,Kitaguchi S.Effect of the composition profile and density of LPPS sprayed functionally graded coating on the thermal shock resistance[J].STAM,2003,4:197 |
| [35] | Markworth A J,Ramesh K S,Parks W P.Modelling studies applied to functionally graded materials[J].J.Mater.Sci.,1995,30:2183 |
| [36] | Nicholls J R,Simms N J,Chan W Y,et al.Smart overlay coatingsconcept and practice[J].Surf.Coat.Technol.,2002,149(2-3):236 |
| [37] | 关春红,唐兆麟,王福会等.搪瓷涂层对Ti-24Al-14Nb-3V抗氧化及热腐蚀性能的影响[J].材料研究学报,2000,14(增刊):75 |
| [38] | Xiong Y M,Wang F H,Wu W T,et al Effect of enamel coating on corrosion of Ti60 alloy[J].Mater.Sci.Forum,2001,369-372:743 |
| [39] | Xiong Y M,Zhu S L,Wang F H.The oxidation behavior and mechanical performance of Ti60 alloy with enamel coating[J].Surf.Coat.Technol.,2005,190(2-3):195 |
| [40] | Xiong Y M,Zhu S L,Wang F H.The oxidation behavior of TiAlNb intermetallics with coatings at 800 ℃[J].Surf.Coat.Technol.,2005,197(2-3):322 |
| [41] | 熊玉明.高温钛合金用超细搪瓷涂层的研究[D].沈阳:中国科学院金属研究所,2004 |
| [42] | 郑德有.搪瓷涂层和氧化钛铝涂层高温腐蚀机理的研究[D].沈阳:中国科学院金属研究所,2007 |
| [43] | Zheng D Y,Xiong Y M,Zhu S L,et al.Effect of enamel coating on long-term oxidation and hot corrosion behavior of Ti-24Al-17Nb-0.5Mo alloys[J].Trans.Nonferrous Met.Soc.China,2004,14(增刊):359 |
| [44] | Zheng D Y,Zhu S L,Wang F H.Oxidation and hot corrosion behavior of a novel enamel-Al2O3 composite coating on K38G suppetalloy[J].Surf.Coat.Technol.,2006,200(20-21):5931 |
| [45] | Zheng D Y,Zhu S L,Wang F H.The influence of TiAlN and enamel coatings on the corrosion behavior of Ti6Al4V alloy in the presence of solid NaCl deposit and water vapor at 450 ℃[J].Surf.Coat.Technol.,2007,201(12):5859 |
| [46] | 陈明辉.颗粒增强改善搪瓷涂层的抗热震性能机制研究[D].沈阳:中国科学院金属研究所,2011 |
| [47] | Chen M H,Zhu S L,Shen M L,et al.Effect of NiCrAlY platelets inclusion on the mechanical and thermal shock properties of glass matrix composites[J].Mater.Sci.Eng.,2011,A 528(3):1360 |
| [48] | 陈明辉,朱圣龙,王福会.NiCrAlY颗粒添加改善搪瓷力学及热震性能研究[C].云南昆明:第七届海峡两岸材料腐蚀与防护研讨会,2010 |
| [49] | Das S,Mukhopadhyay A K,Datta S,et al.Evaluation of microwave processed glass-ceramic coating on nimonic superalloy substrate[J].Ceram.Int.,2010,36(3):1125 |
| [50] | Das S,Datta S,Basu D,et al.Hot corrosion of glass coating on nickel base superalloy[J].Ceram.Int.,2008,34(5):1215 |
| [51] | Datta S,Das S.A new high temperature resistant glass-ceramic coating for gas turbine engine components[J].Bull.Mater.Sci.,2005,28(7):689 |
| [52] | Sarkar S,Datta S,Das S,et al.Oxidation protection of gamma-titanium aluminide using glass-ceramic coatings[J].Surf.Coat.Technol.2009,203(24):1797 |
| [53] | Dietrich M,Verlotski V,Vaβen R,et al.Metal-glass based composites for novel TBC-system[J].Materialwiss.Werkstofftech.,2001,32(8):669 |
| [54] | Mack D E,Gross S M,Vaβen R,et al.Metal-glass based composites for application in TBC-systems[J].J.Therm.Spray Technol.,2006,15(4):652 |
| [55] | Murakami H,Matsumura Y,Kasai K.Effect of Ir addition to Ptbased oxidation resistant coatings[C].France:Les Embiez,2012:20 |
| [56] | Liu X,Huang L,Bao Z B,et al.Oxidation behavior of graded NiCrA1YRe coatings at 900,1000 and 1100 ℃[J].Oxid.Met.,2009,71(3-4):125 |
| [57] | Itoh Y,Saitoh M.Mechanical properties of overaluminized MCrAlY coatings at room temperature[J].J.Eng.Gas Turb.Power,2005,127(4):807 |
| [58] | Bao Z B,Wang Q M,Li W Z,et al.Preparation and hot corrosion behaviour of an Al-gradient NiCoCrAlYSiB coating on a Ni-base superalloy[J].Corros.Sci.,2009,51(4):860 |
| [59] | Jiang S M,Li H Q,Ma J,et al.High temperature corrosion behaviour of a gradient NiCoCrAlYSi coating.Ⅱ:Oxidation and hot corrosion[J].Corros.Sci.,2010,52(7):2316 |
| [60] | Ma J,Jiang S M,Li H Q,et al.Microstructure and oxidation behaviour of an AlSiY/NiCrAlYSi composite coating at 1150 ℃[J].Corros.Sci.,2011,53(4):1417 |
| [61] | 鲁金涛.NiCrAlY涂层热扩散制备方法及高温氧化和高温腐蚀行为研究[D].沈阳:中国科学院金属研究所,2011 |
| [62] | 郭鹤同,张三元.复合镀层[M].天津:天津大学出版社,1991 |
| [63] | Foster J,Cameron B P.Effect of current density and agitation on the formation of electrodeposited composite coatings[J].Trans.Inst.Met.Finish.,1976,54(4):178 |
| [64] | Honey F J,Kedward E C,Wride V.The development of electrodeposits for high-temperature oxidation/corrosion resistance[J].J.Vac.Sci.Technol.,1986,4A(6):2593 |
| [65] | Yang X P,Peng X,Wang F H.Effect of a small increase in the Ni content on the properties of a laser surface clad Fe-based alloy[J].Appl.Surf.Sci.,2007,253(9):4420 |
| [66] | Yang X,Peng X,Xu C,et al.Electrochemical assembly of Ni-xCryAl nanocomposites with excellent high-temperature oxidation resistance[J].J.Electrochem.Soc.,2009,156(5):167 |
| [67] | Gleeson B.Thermal barrier coatings for aeroengine applications[J].J.Propul.Power.,2006,22 (2):37 |
| [68] | Gleeson B,Sordelet D,Wang W.High-temperature coating with Pt metal modified γ-Ni + γ'-Ni3Al alloy compositions[P].U.S.:US7273662B2,2007 |
| [69] | Vassen R,Jarligo M O,Steinke T,et al.Overview on advanced thermal barrier coatings[J].Surf.Coat.Technol.,2010,205(4):938 |
| [70] | Vassen R,Stuke A,St(o)ver D.Recent developments in the Field of thermal barrier coatings[J].J.Therm.Spray Technol.2009,18(2):181 |
| [71] | Schulz U,Saruhan B,Fritscher K,et al.Review on advanced EBPVD ceramic topcoat of TBC applications[J].Int.J.Appl.Ceram.Technol.,2004,1(4):302 |
| [72] | Peters M,Leyens C,Schulz U,et al.EB-PVD thermal barrier coatings for aeroengines and gas turbines[J].Adv.Eng.Mater.,2001,3(4):193 |
| [73] | Schulz U,Leyens C,Fritscher K,et al.Some recent trends in research and technology of advanced thermal barrier coatings[J].Aerosol Sci.Technol.,2003,7(1):73 |
| [74] | Beele W,Eschendorff G.High speed PVD thermal barrier coatings[J].Adv.Eng.Mater.,2006,8(7):673 |
| [75] | Hasz W C,Johnson C A,Borom M P.Protected thermal barrier coating composite with multiple coatings[P].U.S.:5,914,189,1999 |
| [76] | Rai A K,Bhattacharya R S,Wolfe D E,et al.CMAS-resistant thermal barrier coatings (TBC)[J].Int.J.Appl.Ceram.Technol.,2010,7(5):662 |
| [77] | Seraffon M,Simms N J,Sumner J,et al.The development of new bond coat compositions for thermal barrier coating systems operating under industrial gas turbine conditions[J].Surf.Coat.Technol.,2011,206(7):1529 |
| [78] | Lehnert G,Meinhardt H.Present state and trend of development of surface coating methods against oxidation and corrosion at high temperatures[J].Electrodepos.Surf.Treat.,1972,1(1):71 |
| [79] | Burman C,Ericsson T,Kvernes I,et al.Coatings with lenticular oxides preventing interdiffusion[J].Surf.Coat.Technol.,1987,32(1-4):127 |
| [80] | Wu F,Murakami H,Suzuki A.Development of an iridium-tantalum modified aluminide coating as a diffusion barrier on nickelbase single crystal superalloy TMS-75[J].Surf.Coat.Technol.,2003,168(1):62 |
| [81] | Haynes J A,Zhang Y,Cooley K M,et al.High-temperature diffusion barriers for protective coatings[J].Surf.Coat.Technol.,2004,188:153 |
| [82] | Cavaletti E,Naveos S,Mercier S J,et al.Ni-W diffusion barrier:Its influence on the oxidation behavior of a β-(Ni,Pt)Al coated fourth generation nickel-base superalloy[J].Surf.Coat.Technol.,2009,204 (6-7):761 |
| [83] | Narita T,Ford S,Yoshioka T,et al.Formation of Pt-modified γ'-Ni3Al and Re-based σ-alloy coating system and cyclic oxidation behavior of coated superalloy[J].Mater.Sci.Forum.,2008,595-598:135 |
| [84] | Knotek O,Lugscheider E,Loffler F,et al.Diffusion barrier coatings with active bonding,designed for gas turbine blades[J].Surf.Coat.Technol.,1994,68:22 |
| [85] | Wang Q M,Wu Y N,Guo M H,et al.Ion-plated Al-O-N and Cr-O-N films on Ni-base superalloys as diffusion barriers[J].Surf.Coat.Technol.,2005,197(1):68 |
| [86] | Muller J,Neuschutz D.Efficiency of α-alumina as diffusion barrier between bond coat and bulk material of gas turbine blades[J].Vacuum,2003,71 (1-2):247 |
| [87] | Lou H Y,Wang F H.Effect of Ta,Ti and TiN barriers on diffusion and oxidation kinetics of sputtered CoCrAlY coatings[J].Vacuum,1992,43(5-7):757 |
| [88] | 李伟洲,王启民,孙超.高温防护涂层扩散阻挡层的研究进展[J].材料导报,2009,23(5):30 |
| [89] | Coad J P,Rickerby D S,Oberlander B C.The use of titanium nitride as a diffusion barrier for M-Cr-Al-Y coatings[J].Mater.Sci.Eng.,1985,74(1):93 |
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%