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OALib Journal期刊
ISSN: 2333-9721
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不锈钢表面阴极等离子体液相沉积氧化铝层
Abstract:
?使用阴极等离子体液相沉积技术在不锈钢表面生成了厚度达40μm的氧化铝膜层,研究了电流密度对膜层的组成和结构影响,以及膜层的生长规律和形成过程.膜层由α-al2o3和γ-al2o3组成,随着电流密度的增大,α-al2o3的含量逐渐增大,电流密度为8a/dm2时达到86%.膜层的表面粗糙、多孔,随着电流密度的增大,表面颗粒状明显增多,微孔数减少;基体中的fe没有进入膜层,从膜层内向外al和o的含量逐渐下降.
| [1] | 1g.a.slack,r.a.tanzilli,r.o.pohl,j.w.vandersande,theintrinsicthermalconductivityofaln,j.phys.chem.solids,48,641(1987)
|
| [2] | 2l.m.sheppard,aluminumnitride:aversatilebutchal-lengingmaterial,am.ceram.soc.bull.,69(11),1801(1990)
|
| [3] | 3a.v.virkar,t.b.jackson,r.a.cutler,thermodynamicandkineticeffectsofoxygenremovalonthethermalcon-ductivityofaluminumnitride,j.am.ceram.soc.,72(11),2031(1989)
|
| [4] | 4t.b.jackson,a.v.virkar,k.l.more,r.b.dinwiddie,r.a.cutler,high-thermal-conductivityaluminumnitrideceramics:theeffectofthermodynamic,kinetic,andmi-crostructuralfactors,j.am.ceram.soc.,80(6),1421(1997)
|
| [5] | 5k.watari,m.c.valecillos,m.e.brito,m.toriyama,s.kanzaki,densificationandthermalconductivityofalndopedwithy_2o_3,caoandli_2o,j.am.ceram.soc.,79(12),3103(1996)
|
| [6] | 6shoichikume,masakiyasuoka,naokiomura,kojiwatari,effectofzirconiaadditionondielectriclossandmicrostructureofaluminumnitrideceramics,ceram.int.,33(2),269(2007)
|
| [7] | 7xiongyah,fuzhengyi,wangyucheng,fabricationoftransparenta1nceramicsbysparkplasmasintering,chin.j.mater.res.,19(5),555(2005)(熊焰,傅正义,王玉成,放电等离子烧结制备透明aln陶瓷,材料研究学报,19(5),555(2005))
|
| [8] | 8a.witek,m.bockowski,a.presz,m.wroblewski,s.krukowski,w.wlosinski,k.jablonski,synthesisofoxygen-freealuminiumnitrideceramics,j.mater.sci.,33(13),3321(1998)
|
| [9] | 9z.y.lu,y.c.teng,q.l.liao,d.li,thestudyofainceramicssinteredatsuperhighpressurewithbelt-typepresstechnology,j.mater.sci.:mater.elect.,16(8),483(2005)
|
| [10] | 10hiroyukiichimaru,giuseppepezzotti,ramanmicroprobemappingofresidualandbridgingstressfieldsinalnce-ramics,mater.sci.eng.a,326(2),261(2002)
|
| [11] | 11h.a.ma,x.p.jia,l.x.chen,p.w.zhu,g.z.ren,w.l.guo,x.q.fu,g.t.zou,z.a.ren,g.c.che,z.x.zhao,superhardmgb_2bulkmaterialpreparedbyhigh-pressuresintering,j.phys.:condens.matter,14(44),11181(2002)
|
| [12] | 12leizhenkun,kangyilan,huming,qiuyu,xuhan,niuhong-pan,anexperimentalanalysisofresidualstressmeasurementsinporoussiliconusingmicro-ramanspectroscopy,chin.phys.lett.,21(2),403(2004)
|
| [13] | 13m.hirano,k.kato,t.isobe,t.hirano,sinteringandchar-acterizationoffullydensealuminiumnitrideceramics,j.mater.sci.,28(17),4725(1993)
|
| [14] | 14y.w.kim,h.c.park,y.b.lee,k.d.oh,r.stevens,reac-tionsinteringandmicrostructuraldevelopmentinthesys-temal_2o_3-aln,j.eur.ceram.soc.,21(13),2383(2001)
|
| [15] | 15t.prokofyeva,m.seon,j.vanbuskirk,m.holtz,s.a.nikishin,n.n.faleev,h.temkin,s.zollner,vi-brationalpropertiesofa1ngrownon(111)-orientedsilicon,phys.rev.b.,63(12),125313(2001)
|
| [16] | 16l.grabner,spectroscopictechniqueforthemeasurementofresidualstressinsintereda1203,j.appl.phys.,49(2),580(1978)
|
| [17] | 17i.gorczyca,n.e.christensen,p.perlin,i.grzegory,j.jun,m.bockowski,highpressurephasetransitioninalu-miniumnitride,solidstatecomun.,79(12),1033(1991)
|
| [18] | 18m.ueno,a.onodera,o.shimomura,k.takemura,x-rayobservationofthestructuralphasetransitionofaluminumnitrideunderhighpressure,phys.rev.b.,45(17),10123(1992)
|
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