Effect of Manganese on Titanium Thin Films Adhesion Deposited on Steel Substrates

R. Gheriani; Raouf Mechiakh

doi:10.4028/www.scientific.net/DDF.326-328.583

Paper Titles

Heat-Mass Transfer and Related Microstructures in TiAl-Based Alloys Directionally Solidifying in the Earth Gravity and Microgravity
p.561

Measurement of the Transverse Diffusion Coefficient of Charge in Liquid Xenon
p.567

Study of Phase Transformation in Alloys of the Al-Fe System
p.573

Evaluation of the System Free Energy in FG-HAZ of Mod.9Cr-1Mo Steel for Nuclear Power Plants
p.578

Effect of Manganese on Titanium Thin Films Adhesion Deposited on Steel Substrates
p.583

Thermal Expansion of Alloys from the Al-Fe System
p.587

Development of Nonlinear Analytical Models for the Study of Heat/Mass Transfer Properties in the Drying of Porous Type Fabric
p.593

Comparison of Two Models for Simulation of Binary Alloy Solidification
p.599

Application of Simplified Inverse Solution to Estimate the Thermo-Physical Parameters of Granular Porous Materials Bonded by Different Resins
p.605

HomeDefect and Diffusion ForumDefect and Diffusion Forum Vols. 326-328Effect of Manganese on Titanium Thin Films...

Effect of Manganese on Titanium Thin Films Adhesion Deposited on Steel Substrates

Abstract:

The mainly property of thin solid films technologies is their adhesion to the substrates. Because of its good wear resistance and its low coefficient of friction against steel, TiC is an attractive coating material for wear applications such as bearing components. The adhesion of TiC coatings, however suffers from insufficient reproducibility, which is probably due to uncontrolled process parameters. In our work pure titanium thin films of approximately 0.6 µm in thickness were prepared on 100C6 stainless steel substrates by cathodic sputtering. The samples were subjected to secondary vacuum annealing at a temperature between 400 and 1000°C for 30 min. The reaction between substrates and thin films was characterized using an x-ray diffractometer (XRD). Surface morphology and elements diffusion evaluations were carried out by scanning electron microscope (SEM) and energy dispersive spectroscopy (EDS). The interaction substrates-thin films is accompanied by nucleation and growth of titanium carbide as a function of annealing temperature. By the SEM and EDS results, it appears clearly that the diffusion of manganese to the external layers leads to the destruction of adhesion especially at high temperatures.