综述了不锈钢表面低温热扩渗层制备技术及其腐蚀行为的研究方法,分析了不锈钢表面低温热扩渗层制备及其腐蚀行为研究的现状及存在的问题.结果表明:与大量的力学性能研究相比,对不锈钢(特别是马氏体不锈钢)表面低温热扩渗层(如低温渗氮、渗碳和氮碳共渗等)腐蚀行为的研究相对较少,采用的主要研究方法是常规的极化曲线和电化学阻抗谱等方法.随着低温热扩渗技术在不锈钢表面改性上的成功应用及其应用领域的扩展,借助腐蚀领域中新的理论和研究方法,研究不锈钢表面低温热扩渗层的腐蚀行为,准确揭示渗层腐蚀机制,已经势在必行.
Preparation technology as well as corrosion behavior research methods for low temperature thermal diffusion layer on stainless steel were summarized,the state-of-the-arts of the preparation and corrosion behavior characterization of the thermal diffusion layers were analyzed.The results indicate that there are only few researches conducted to corrosion behavior studies of the low temperature thermal diffusion layer (such as low temperature nitriding,carburizing and nitrocarburizing,and so on) on stainless steels (especially for martensite stainless steel),and the research methods are mainly based on common polarization curve and electrochemical impedance spectroscopy,comparing with the plentiful studies on their mechanical properties.With the successful application of low temperature thermal diffusion technology on the surface modification of stainless steel and the expansion of their application area,it is imperative to study the corrosion behavior of the low temperature thermal diffusion layer on stainless steel and exactly reveal the corrosion mechanisms of the modified layer with the aid of new theories as well as new research methods in corrosion research field.
参考文献
| [1] | K.H. Lo;C.H. Shek;J.K.L. Lai.Recent developments in stainless steels[J].Materials Science & Engineering, R. Reports: A Review Journal,20094/6(4/6):39-104. |
| [2] | 徐哲 .舰船燃机压气机叶片防护涂层制备及其耐蚀耐磨性能研究[D].哈尔滨工程大学,2006. |
| [3] | 孙希泰;徐英;孙毅.21世纪化学热处理将由其它能助扩渗代替纯热扩渗[J].金属热处理,2003(1):27-29. |
| [4] | Suh BS.;Lee WJ..SURFACE HARDENING OF AISI 316L STAINLESS STEEL USING PLASMA CARBURIZING[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,19971/2(1/2):185-192. |
| [5] | Pantazopoulos G;Papazoglou T;Psyllaki P;Sfantos G;Antoniou S;Papadimitriou K;Sideris J.Sliding wear behaviour of a liquid nitrocarburised precipitation-hardening (PH) stainless steel[J].Surface & Coatings Technology,20041(1):77-85. |
| [6] | T. Christiansen;M. A. J. Somers.Low temperature gaseous nitriding and carburising of stainless steel[J].Surface Engineering,20055/6(5/6):445-455. |
| [7] | Mingolo N;Tschiptschin AP;Pinedo CE.On the formation of expanded austenite during plasma nitriding of an AISI 316L austenitic stainless steel[J].Surface & Coatings Technology,20067(7):4215-4218. |
| [8] | Marchev K.;Giessen BC.;Cooper CV..Observation of a compound layer with very low friction coefficient in ion-nitrided martensitic 410 stainless steel[J].Surface & Coatings Technology,19983(3):229-233. |
| [9] | 刘瑞良;闫牧夫;乔英杰.马氏体不锈钢低温表面改性技术研究进展[J].金属热处理,2012(9):1-7. |
| [10] | Kliauga AM.;Pohl M..Effect of plasma nitriding on wear and pitting corrosion resistance of X2 CrNiMoN 22 5 3 duplex stainless steel[J].Surface & Coatings Technology,19981/3(1/3):1205-1210. |
| [11] | Kochmanski P;Nowacki J.Influence of initial heat treatment of 17-4 PH stainless steel on gas nitriding kinetics[J].Surface & Coatings Technology,200819(19):4834-4838. |
| [12] | 罗伟;王均;闫静;熊计;张太平;胡泽晶.304奥氏体不锈钢低温盐浴渗氮处理[J].材料热处理学报,2012(10):107-110,115. |
| [13] | Wang, J.;Lin, Y.;Yan, J.;Zen, D.;Zhang, Q.;Huang, R.;Fan, H..Influence of time on the microstructure of AISI 321 austenitic stainless steel in salt bath nitriding[J].Surface & Coatings Technology,201215(15):3399-3404. |
| [14] | Y. Cao;F. Ernst;G. M. Michal.Colossal carbon supersaturation in austenitic stainless steels carburized at low temperature[J].Acta materialia,200314(14):4171-4181. |
| [15] | J. Liu;H. Dong;J. Buhagiar;C. F. Song;B. J. Yu;L. M. Qian;Z. R. Zhou.Effect of low-temperature plasma carbonitriding on the fretting behaviour of 316LVM medical grade austenitic stainless steels[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,20119/10(9/10):1490-1496. |
| [16] | Anjos, A. D.;Scheuer, C. J.;Brunatto, S. F.;Cardoso, R. P..Low-temperature plasma nitrocarburizing of the AISI 420 martensitic stainless steel: Microstructure and process kinetics[J].Surface & Coatings Technology,2015:51-57. |
| [17] | Sun Y.Hybrid plasma surface alloying of austenitic stainless steels with nitrogen and carbon[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20051/2(1/2):124-129. |
| [18] | M.F. Yan;R.L. Liu;D.L. Wu.Improving the mechanical properties or 17-4PH stainless steel by low temperature plasma surface treatment[J].Materials & design,20104(4):2270-2273. |
| [19] | Liu, RL;Yan, MF.The microstructure and properties of 17-4PH martensitic precipitation hardening stainless steel modified by plasma nitrocarburizing[J].Surface & Coatings Technology,201014(14):2251-2256. |
| [20] | R.L. Liu;M.F. Yan.Improvement of wear and corrosion resistances of 17-4PH stainless steel by plasma nitrocarburizing[J].Materials & design,20105(5):2355. |
| [21] | Runbo Huang;Jun Wang;Si Zhong;Mingxing Li;Ji Xiong;Hongyuan Fan.Surface modification of 2205 duplex stainless steel by low temperature salt bath nitrocarburizing at 430 °C[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2013Apr.15(Apr.15):93-97. |
| [22] | Tsujikawa M;Yamauchi N;Ueda N;Sone T;Hirose Y.Behavior of carbon in low temperature plasma nitriding layer of austenitic stainless steel[J].Surface & Coatings Technology,20051/3(1/3):309-313. |
| [23] | Masato Tsujikawa;Daisuke Yoshida;Naohiko Yamauchi.Surface Modification of SUS304 Stainless Steel Using Carbon Push-Ahead Effect by Low Temperature Plasma Nitriding[J].Materials transactions,20054(4):863-868. |
| [24] | Tsujikawa, M;Yoshida, D;Yamauchi, N;Ueda, N;Sone, T;Tanaka, S.Surface material design of 316 stainless steel by combination of low temperature carburizing and nitriding[J].Surface & Coatings Technology,20051/4(1/4):507-511. |
| [25] | Manova, D;Mandl, S;Neumann, H;Rauschenbach, B.Wear behaviour of martensitic stainless steel after PIII surface treatment[J].Surface & Coatings Technology,20051/4(1/4):137-140. |
| [26] | Baba K.;Hatada R..Formation of amorphous carbon thin films by plasma source ion implantation[J].Surface & Coatings Technology,19980(0):235-239. |
| [27] | P. W. Shum;Z. R Zhou;K. Y. Li.Tribological performance of amorphous carbon films prepared on steel substrates with carbon implantation pre-treatment[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,20043/4(3/4):362-373. |
| [28] | Blawert C.;Mordike BL.;Collins GA.;Short KT.;Jiraskova Y.;Schneeweiss O.;Kalvelage H..Nitrogen and carbon expanded austenite produced by PI3[J].Surface & Coatings Technology,20011/3(1/3):181-187. |
| [29] | A.M. Abd El-Rahman;F.M. El-Hossary;N.Z. Negm;F. Prokert;E. Richter;W. Moeller.Influence of gas pressure and substrate temperature on PIII nitrocarburizing process of AISI 304 stainless steel[J].Nuclear Instruments and Methods in Physics Research, Section B. Beam Interactions with Materials and Atoms,20044(4):499-506. |
| [30] | C. X. Li;T. Bell.Sliding wear properties of active screen plasma nitrided 316 austenitic stainless steel[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,200411/12(11/12):1144-1152. |
| [31] | C. X. Li.Active screen plasma nitriding - an overview[J].Surface Engineering,20101/2(1/2):135-141. |
| [32] | R. R. M. de Sousa;F. O. de Araujo;K. J. B. Ribeiro.Ionic nitriding in cathodic cage of AISI 420 martensitic stainless steel[J].Surface Engineering,20081(1):52-56. |
| [33] | Wu, K;Liu, GQ;Wang, L;Xu, BF.Research on new rapid and deep plasma nitriding techniques of AISI 420 martensitic stainless steel[J].Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology,20106(6):870-875. |
| [34] | R.L.Lju;Y.J. Qiao;M.F. Yan;Y.D. Fu.Effects of Rare Earth Elements on the Characteristics of, Low Temperature Plasma Nitrocarburized Martensitic Stainless Steel[J].材料科学技术学报:英文版,2012(11):1046-1052. |
| [35] | R. L. Liu;Y. J. Qiao;M. E Yan.Layer Growth Kinetics and Wear Resistance of Martensitic Precipitation Hardening Stainless Steel Plasma Nitrocarburized at 460 °C with Rare Earth Addition[J].Metals and Materials International,20135(5):1151-1157. |
| [36] | A. Fattah-alhosseini;F. Soltani;F. Shirsalimi;B. Ezadi;N. Attarzadeh.The semiconducting properties of passive films formed on AISI 316 L and AISI 321 stainless steels: A test of the point defect model (PDM)[J].Corrosion Science: The Journal on Environmental Degradation of Materials and its Control,201110(10):3186-3192. |
| [37] | 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(2):65-69. |
| [38] | Zandi Zand, R.;Verbeken, K.;Adriaens, A..The corrosion resistance of 316L stainless steel coated with a silane hybrid nanocomposite coating[J].Progress in Organic Coatings: An International Review Journal,20114(4):709-715. |
| [39] | Liang Xu;Yu Zuo;Junlei Tang;Yuming Tang;Pengfei Ju.Chromium-palladium films on 316L stainless steel by pulse electrodeposition and their corrosion resistance in hot sulfuric acid solutions[J].Corrosion Science,201111(11):3788-3795. |
| [40] | Sun, Y.Depth-profiling electrochemical measurements of low temperature plasma carburised 316L stainless steel in 1 M H2SO4 solution[J].Surface & Coatings Technology,201016/17(16/17):2789-2796. |
| [41] | Sun, Y.;Haruman, E..Effect of electrochemical potential on tribocorrosion behavior of low temperature plasma carburized 316L stainless steel in 1M H_2SO_4 solution[J].Surface & Coatings Technology,201117/18(17/18):4280-4290. |
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