Frictional and adhesive behavior of organic-inorganic hybrid coatings on surgical grade stainless steel, using nano-scratching technique

JOSEFINA BALLARRE; DAMIÁN A. LÓPEZ; ANA LÍA CAVALIERI

WEAR

Elsevier

Año: 2009 vol. 266 p. 1165 - 1170

0043-1648

Because of their mechanical properties, metals are the most widely used materials as orthopaedic implants. However they cannot provide a natural bond with the mineralized bone and they also release metallic particles due to degradation or tribologic events. One way to improve the metallic implants performance is to apply protective organic-inorganic sol-gel coatings. In this work, stainless steel substrates are coated with films made by a sol-gel technique from organosilane precursors. Although mechanical properties of similar films have been studied, there is no information about adhesion, friction or deformation processes of silica based hybrid films to stainless steel substrates. Hybrid coatings with higher amount of inorganic components (called TMH) have almost no elastic response and the debris due to chipping or delamination does not persist into the indentation trace. With the film with high content of organic compounds was found elastic recovery in early stages of loading and there is evidence of pile up at the edges of the trace with higher load applied. After the unloading the film has a persistent deformation and is removed due to the asynchornic recovery of the film and the substrate. The combined two films coating shows a lot of debris in the trace. This is an unusual but possible behaviour of polymeric coatings and could be attributed to different recovery between the first inorganic layer (called TEOS-MTES), the substrate and the upper TMH film. This fact produces delamination and crack formation in the TEOS-MTES coating, inducing tensile efforts, and finally the upper film is pulled-off.