STUDY ON THE ELECTROCHEMICAL CORROSION BEHAVIOROF TiN COATING IN ACID AND SALT SOLUTIONⅡThe effect of Al addition on the corrosion resistance andfailure mechanism of TiN coating in acid and salt solution

J Chin Soc Corr Pro

2003, Vol. 23

Issue (3): 134-138 DOI:

Research Report

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STUDY ON THE ELECTROCHEMICAL CORROSION BEHAVIOROF TiN COATING IN ACID AND SALT SOLUTIONⅡThe effect of Al addition on the corrosion resistance andfailure mechanism of TiN coating in acid and salt solution

Ying Li;Li Qv;Fuhui Wang;Zhongbao Shao

中国科学院金属研究所;金属腐蚀与防护国家重点实验室

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Abstract The effect of Al addition on the corrosion properti es of TiN coating was studied by electrochemical methods and surface analysis su ch as SEM and STM.It has been revealed that the structure of TiN coating has bee n changed from cylinder crystal to the crystal in nanometer.The corrosion proper ty of TiN and (Ti,Al)N coatings are different.The general corrosion occurred on (Ti,Al)N coating in acid and salt solution,however,the corrosion behavior of TiN coating is similar to pit corrosion.The corrosion resistance of (Ti,Al)N has be en improved for the self-repaired function of the (Ti,Al)N coating.The catal ytic process under the (Ti,Al)N coating is not as serous as that under TiN co ating.

Key words: (Ti Al) N corrosion resistance failure mechanism

Received: 22 June 2001

ZTFLH:

TG174.71

Corresponding Authors: Ying Li

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Ying Li; Li Qv; Fuhui Wang; Zhongbao Shao. STUDY ON THE ELECTROCHEMICAL CORROSION BEHAVIOROF TiN COATING IN ACID AND SALT SOLUTIONⅡThe effect of Al addition on the corrosion resistance andfailure mechanism of TiN coating in acid and salt solution. J Chin Soc Corr Pro, 2003, 23(3): 134-138 .

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https://www.jcscp.org/EN/ OR https://www.jcscp.org/EN/Y2003/V23/I3/134

[1]LiY ,QuL ,WangFH ,ShaoZB .Studyontheelectrochemicalcor rosionbehaviorofTiNcoating,I.ProtectionpropertyandfailuremechanismofTiNcoating[J].JChin.Soc.Corros.Prot.,2003,23(2):65(李瑛,屈力,王福会.邵忠宝.TiN涂层电化学腐蚀行为研究,Ⅰ.TiN涂层的保护性能与失效机制[J].中国腐蚀与防护学报,2003,23(2):65)
[2]M櫣ｎｚＷＤ.Wearresistanceofplasma-nitridedandsputter-ionplatedhobs[J].Surf.Coat.Technol.,1990,41:17
[3]HenselB ,Diplomawork,FachhochschuleGiessenFriedberg,September,1985.T .Leyendecker,Ph.D .Thesis,RWTHAachen,1985.
[4]PenttinenIM ,KorhonenAS ,HarjuE ,TurkiaMA ,Fors啨ｎＯ,Ris tolainenEO .ComparisonofthecorrosionresistanceofTiNand(Ti,Al)Ncoating[J].Surf.Coat.Technol.,1992,50:161
[5]BrettCMA ,CavaleiroA .Acomparisonoftheelectrochemicslbe haviorofW -M -N(M =Ni,Ti,Al)thinfilmcoatingsonhighspeedsteel[J].ThinSolidFilms,1998,322:263
[6]YuL ,LangFQ ,YuZM .StructureandanticorrosionpropertyofTi(Al)Ncoatingpreparedbyionplating[J].Corros.Sci.Prot.Technol.,1999,11:84(于力,郎丰群,于志明等.离子镀Ti(Al)N涂层的结构与耐蚀性[J].腐蚀科学与防护技术,1999,11:84)

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