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Electric and Magnetic Properties of Multiferroic Oxide Thin Films and Heterostructures
20 Oct 2010 | Online Presentations | Contributor(s): Pedro Antonio Prieto
TiCN/TiNbCN Multilayer System with Enhanced Tribological Properties
Improvement in the mechanical properties of hard coatings such monolayer (TiN, CrN, AlCN, WC-Co, TiCN) , has been achieved using compositional gradient WC/C layer, or multilayered type [transition metal/transition carbide]n, [transition metal/transition nitride]n, [TiCN/ZrCN]n, among others. Multilayered coatings exhibit better mechanical and chemical properties, such as hardness, adhesion, wear resistance, than those in monolayer [2, 3]. We have improved mechanical properties in a multilayered system such as [BCN/c-BN]n, n varying between 1 to 16 . Improvement in the mechanical properties is of crucial importance from industrial applications point of view, especially in processes where high mechanical performance is required. In this work, we have grown superlattices based on the ternary and quaternary coatings of the type [TiCN/TiNbCN]n, maintaining constant the total thickness of the coating. The main goal is to study the crystalline and interfacial structure via electron microscopy in cross section view and correlated them with structural, morphological and mechanical properties. [TiCN/TiNbCN]n coatings were grown onto Si (100) and steel substrates by reactive r.f. magnetron sputtering technique using two alternating targets (TiC and Nb) [5-6]. The bilayer period (Λ) was varied from the micrometric (1.5 µm) to the nanometric range (15 nm), for a total thickness of 3 µm. Coatings was structurally characterized by x-ray diffraction (XRD), transmission electron microscopy and (TEM) and Atomic Force Microscopy (AFM). Fig.1 displays a cross section TEM micrograph showing the diffraction contrast of the multilayer and its corresponding diffraction pattern; in Fig 2 we can observed a TiNC/TiNbCN interface via the high resolution TEM micrograph. Fig. 3 shows an AFM image of a surface of a multilayer showing the nano-indentation traces. Fig. 4 shows the improvement of the hardness with the increase of the bilayers number. Detailed analysis of high resolution images and their diffraction pattern on multilayer with the lowest bilayer thickness indicates an epitaxial relation between TiNC and TiNbCN layers inside each columnar crystallite, it is given by Ti-N-C(111)||Ti-Nb-CN (111) showing cube-on cube assembly. Hardness measurements were performed by using nano-indentation. The tribological properties were determinate via dynamic contact test using a Microtest MT 4001-98 tribometer and Scratch Test Microtest MTR2 system; from them, the friction coefficient and critical load for the different samples were measured. An enhancement of both hardness and elastic modulus was observed when the bilayer period (Λ) in the coatings was reduced. Sample with the smallest bilayer period (Λ = 15 nm, n = 200 bilayers) showed the lowest friction coefficient (~0.1) and the highest critical load (80 N), corresponding to 2.2 and 1.6 times better than those values for the coating with n = 1, respectively. The enhancement effects in the [TiCN/TiNbCN]n multilayer coatings can be attributed to the Hall Petch effect in multilayered coatings, in which the interfaces act as a barrier against the movement of the dislocations and the bilayers of materials having different mechanical properties generate an inhomogeneous.
In conjunction with J. C. Caicedo, C. Amaya, M. E. Gómez (Thin Film Group, Department of Physics, Universidad del Valle, Cali, Colombia),
L. Yate, A. Lousa, and J. Esteve
(Department de Física Aplicada i Óptica, Universitat de Barcelona, Catalunya, Spain).
This work was supported by the Center of Excellence for Novel Materials (CENM) under Colciencias/CENM contract # RC-043-2005.
Center of Excellence on Novel Materials (CENM) Overview Video
11 Oct 2010 | Animations | Contributor(s): Pedro Antonio Prieto
Nanotechnology Activities in Colombia: A Perspective From the Excellence Center for Novel Materials
11 Oct 2010 | Online Presentations | Contributor(s): Pedro Antonio Prieto
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