화학공학소재연구정보센터
Thin Solid Films, Vol.377-378, 261-268, 2000
Design of W buffer layer for adhesion improvement of DLC films on tool steels
Diamond-like carbon (DLC) has been a candidate for various applications due to its excellent tribological and mechanical properties. However, poor adhesion on tool steels limits its applications over a wide range. In the present work, we investigated the effect of W and W-C intermediate layers on the adhesion of DLC films to AISI D2 tool steels. The intermediate layers were deposited by de magnetron sputtering and the DLC films were deposited on the various intermediate layers by rf-PACVD. Adhesion of the DLC film was significantly improved by introducing W and W-C intermediate layers. The adhesion was strongly dependent on the thickness of W layer and the CH4 fraction in the sputtering gas during the intermediate layer deposition. TEM cross section revealed that, in addition to the chemical compatibility between carbon and the intermediate layer materials, the microstructure of the intermediate layer is also important to improve the adhesion. Columnar grains of the intermediate layers and structural continuity between the W and W-C mixed layers were the significant factors affecting the adhesion of DLC films.