研究加入10% Si(摩尔分数)对 TiAlSiN 涂层的影响。采用阴极电弧蒸镀在 WC?Co 基体上沉积 Ti0.5Al0.5N、Ti0.5Al0.4Si0.1N 和 Ti0.55Al0.35Si0.1N 涂层,通过 X 射线衍射(XRD)、 X 射线光电子能谱(XPS)、扫描电镜(SEM)、纳米压痕测量和划痕试验研究涂层的显微组织和力学性能,探讨 Si 对涂层的性能和结合失效模式的影响机理。结果表明:加入10% Si 后,涂层中形成非晶 Si3N4包覆(Ti,Al,Si)N 纳米晶的纳米复合结构。TiAlSiN 涂层的硬度和韧性升高,但结合强度下降。与 Ti0.55Al0.35Si0.1N 涂层相比, Ti0.5Al0.4Si0.1N 涂层的硬度较高但韧性较低。TiAlN 涂层由于韧性低、界面结合强,因此结合失效模式以楔形剥落为主。TiAlSiN 涂层由于韧性改善、但界面结合变差,因此结合失效模式以屈曲剥落为主。
The effect of 10% Si (mole fraction) addition on TiAlSiN coatings was studied. Ti0.5Al0.5N, Ti0.5Al0.4Si0.1N and Ti0.55Al0.35Si0.1N coatings were deposited on WC?Co substrates by cathodic arc evaporation. The microstructure and mechanical properties were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), nano-indentation measurement and scratch test. The mechanisms of how Si affects the properties and failure modes of TiAlSiN coatings were also discussed. The results show that the addition of 10% Si results in the formation of nc-(Ti,Al,Si)N/a-Si3N4 nano-composite structure. The hardness and toughness of TiAlSiN coatings increase, whereas the coating adhesion strength decreases. Compared with Ti0.55Al0.35Si0.1N coating, Ti0.5Al0.4Si0.1N coating has higher hardness but lower toughness. The dominant failure mode of TiAlN coating is wedging spallation due to low toughness and strong interfacial adhesion. The dominant failure mode of TiAlSiN coatings is buckling spallation due to improved toughness and weakened interfacial adhesion.
参考文献
| [1] | Derflinger VH;Schutze A;Ante M.Mechanical and structural properties of various alloyed TiAlN-based hard coatings[J].Surface & Coatings Technology,200616/17(16/17):4693-4700. |
| [2] | A. Flink;J.M. Andersson;B. Ailing;R. Daniel;J. Sjoelen;L. Karlsson;L Hultman.Structure And Thermal Stability Of Arc Evaporated (ti_(0.33)al_(0.67))_(1-x)si_xn Thin Films[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,20082(2):714-721. |
| [3] | Carvalho, S;Rebouta, L;Ribeiro, E;Vaz, F;Tavares, CJ;Alves, E;Barradas, NP;Riviere, JP.Structural evolution of Ti-Al-Si-N nanocomposite coatings[J].Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology,200910(10):1206-1212. |
| [4] | Pfeiler, M;Zechner, J;Penoy, M;Michotte, C;Mitterer, C;Kathrein, M.Improved oxidation resistance of TiAlN coatings by doping with Si or B[J].Surface & Coatings Technology,200920/21(20/21):3104-3110. |
| [5] | Donghai Yu;Chengyong Wang;Xiaoling Cheng;Fenglin Zhang.Microstructure and properties of TiAlSiN coatings prepared by hybrid PVD technology[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,200917(17):4950-4955. |
| [6] | Chen, L.;Wang, S.Q.;Du, Y.;Zhou, S.Z.;Gang, T.;Fen, J.C.;Chang, K.K.;Li, Y.W.;Xiong, X..Machining performance of Ti-Al-Si-N coated inserts[J].Surface & Coatings Technology,20102(2):582-586. |
| [7] | Effects of Si addition on the microstructural evolution and hardness of Ti-Al-Si-N films prepared by the hybrid system of arc ion plating and sputtering techniques[J].Journal of Vacuum Science & Technology, A. Vacuum, Surfaces, and Films,20034(4):895-899. |
| [8] | In-Wook Park;Sung Ryong Choi;Ju Hyung Suh;Chan-Gyung Park;Kwang Ho Kim.Deposition and mechanical evaluation of superhard Ti-Al-Si-N nanocomposite films by a hybrid coating system[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,20041(1):443-448. |
| [9] | Veprek S;Veprek-Heijman MGJ;Karvankova P;Prochazka J.Different approaches to superhard coatings and nanocomposites[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,20051(1):1-29. |
| [10] | Kang MC;Kim MW;Kim KR;Kim KH;Jung SY;Kim C;Ahn DG.Adhesion Property and Tool Wear of Hybrid Deposited Ti0.67Al0.23Si0.09N Coatings with WC Grain Size and Co Content[J].Journal of computational and theoretical nanoscience,20088(8):1772-1776. |
| [11] | D. Philippon;V. Godinho;P. M. Nagy;M. P. Delplancke-Ogletree;A. Fernandez.Endurance of TiAlSiN coatings: Effect of Si and bias on wear and adhesion[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,20117/8(7/8):541-549. |
| [12] | 时婧;裴志亮;宫骏;孙超;MUDERS C M;姜辛.Si含量对电弧离子镀Ti-Al-Si-N薄膜组织结构和力学性能的影响[J].金属学报,2012(11):1349-1356. |
| [13] | Zhang, S.;Cai, F.;Li, M..The nanostructured phase transition and thermal stability of superhard f-TiN/h-AlSiN films[J].Surface & Coatings Technology,201217(17):3572-3579. |
| [14] | Kim SK;Vinh PV;Kim JH;Ngoc T.Deposition of superhard TiAlSiN thin films by cathodic arc plasma deposition[J].Surface & Coatings Technology,20055/6(5/6):1391-1394. |
| [15] | PalDey S.;Deevi SC..Single layer and multilayer wear resistant coatings of (Ti,Al)N: a review [Review][J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20031/2(1/2):58-79. |
| [16] | Li Chen;Yong Du;Ai J. Wang.Effect of Al content on microstructure and mechanical properties of Ti-Al-Si-N nanocomposite coatings[J].International Journal of Refractory Metals & Hard Materials,20094(4):718-721. |
| [17] | Carvalho S.;Ribeiro E.;Rebouta L.;Pacaud J.;Goudeau P.;Renault PO. Riviere JP.;Tavares CJ..PVD grown (Ti,Si,Al)N nanocomposite coatings and (Ti,Al)N/(Ti,Si)N multilayers: structural and mechanical properties[J].Surface & Coatings Technology,20032/3(2/3):109-116. |
| [18] | Xie, Z.W.;Wang, L.P.;Wang, X.F.;Huang, L.;Lu, Y.;Yan, J.C..Influence of oxidation on the structural and mechanical properties of TiAlSiN coatings synthesized by multi-plasma immersion ion implantation and deposition[J].Nuclear Instruments and Methods in Physics Research, Section B. Beam Interactions with Materials and Atoms,2012:1-5. |
| [19] | Zhang S.;Sun D.;Fu YQ.;Du HJ..Recent advances of superhard nanocomposite coatings: a review[J].Surface & Coatings Technology,20032/3(2/3):113-119. |
| [20] | D. Rafaja;A. Poklad;V. Klemm;G. Schreiber;D. Heger;M. Sima.Microstructure and hardness of nanocrystalline Ti1-x-yAlxSiyN thin films[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20071-2(1-2):279-282. |
| [21] | Godinho, V.;Rojas, T.C.;Trasobares, S.;Ferrer, F.J.;Delplancke-Ogletree, M.-P.;Fernández, A..Microstructural and chemical characterization of nanostructured Tialsin coatings with nanoscale resolution[J].Microscopy and microanalysis: The official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada,20123(3):568-581. |
| [22] | A. A. Voeodin;J. S. Zabinski.Supertough wear-resistant coatings with 'chameleon' surface adaptation[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,20001/2(1/2):223-231. |
| [23] | Raveh A;Zukerman I;Shneck R;Avni R;Fried I.Thermal stability of nanostructured superhard coatings: A review[J].Surface & Coatings Technology,200713(13):6136-6142. |
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