Abstract:
Aluminium thin films were sputtered on stainless steels at substrate temperatures (Ts)
varying between 44.5oC and 100oC and at a constant power of 200 W. At low
temperatures, field emission scanning electron microscopy (FESEM) showed
amorphous and porous films whereas at high temperatures the films exhibited dense,
large-sized and interconnected structures. The porosity area fraction decreased from
8.3% to 1.3% as substrate temperature (Tsub) increased from 44.5oC to 100oC. The
atomic force microscopy (AFM) analysis revealed distinct surface structures at higher
Tsub. The average fractal dimension (D) increased with substrate temperature (Tsub).
The Minkowski connectivity showed that the structure consists of highly
interconnected structures. The highest hardness values and elastic modulus were
recorded at 44.5oC whereas the lowest values were obtained at 80oC. The hardness
and elastic modulus were strongly shown to depend on the contact depth of the
indenter and exhibited smooth creep curve behaviour. These results imply that
varying low substrate (Tsub) (even below 30% of melting temperature) influences the
Al thin film deposition