イオン・プレーティング法により形成したSiO₂/Cu/TiN積層膜のX線的評価

抄録

Residual stress in a coating film is influenced by an undercoated layer in a multi-layered film system. The present study investigates residual stress as well as crystal texture in two- and three-layered films, i. e., Cu/TiN film, SiO₂/Cu film and SiO₂/Cu/TiN film deposited on glass substrates. TiN film was first deposited by arc ion plating on the substrate as an undercoated layer and then Cu and SiO₂ films were deposited on it by plasma coating. The crystal structure and the residual stress in the deposited multi-layered film were investigated by atomic force microscope (AFM) and X-ray diffraction as a function of film thickness of TiN layer.
It was found that the SiO₂ film was amorphous and both the Cu film and the TiN film had a strong {111} orientation. The two-exposure method was used to evaluate residual stress in the Cu and the TiN films by measuring lattice strains in two directions determined by crystal orientation. The Cu layer in Cu/TiN film had tensile residual stresses of 180-240MPa, and the Cu layer in SiO₂/Cu/TiN film had slightly larger tensile residual stresses of 210-260MPa. These stresses in both films increased with the film thickness of the undercoated TiN layer. The TiN layer of Cu/TiN and SiO₂/Cu/TiN had also tensile residual stress of 300 and 330MPa, respectively.