An accurate and efficient control over the present numerical model of depth of sputtering in focused ion beam milling

Abstract: In many applications, such as fabrication of microtools, microsurgical instruments, microgears, and so on, material must be removed precisely with a focused ion beam (FIB) milling process to generate a specified geometry on substrate material. A mathematical model is available to calculate depth of sputtering at each point on substrate material in order to generate a specified geometry, but the results of the existing model deviates from experimental data. In the current paper, normalized pixel spacing and rat… Show more

“…The atoms, which have been removed from parent material, have a characteristic of being deposited on to the newly machined surface. This effect is called redeposition [15,16]. In this article, experiments have been conducted with repetitive scanning cycles, which does not allow redeposition to occur.…”

Machinability Study of Cemented Carbide Using Focused Ion Beam (FIB) Milling

“…The atoms, which have been removed from parent material, have a characteristic of being deposited on to the newly machined surface. This effect is called redeposition [15,16]. In this article, experiments have been conducted with repetitive scanning cycles, which does not allow redeposition to occur.…”

Machinability Study of Cemented Carbide Using Focused Ion Beam (FIB) Milling

Machinability study of high speed steel for focused ion beam (FIB) milling process – An experimental investigation at micron/nano scale