A Molecular Dynamics Simulation Study of Material Removal Mechanisms in Vibration Assisted Nano Impact-Machining by Loose Abrasives

Abstract: Vibration assisted nano impact-machining by loose abrasives (VANILA) is a novel nanomachining process to perform target-specific nano abrasive machining of hard and brittle materials. In this study, molecular dynamic (MD) simulations are performed to understand the nanoscale material removal mechanisms involved in the VANILA process. The simulation results revealed that the material removal for the given impact conditions happens primarily in ductile mode through three distinct mechanisms, which are nanocuttin… Show more

“…[4][5][6][7][8] Nano-scratching is another technique based on indentation, but the tip that presses the surface moves laterally, generating microscopic channels on the material surface. [9] Recently, abrasive nanoparticles driven by ultrasonic vibration [10,11] have been used to study the hardness of materials and also for micro-machining.…”

Nano‐Cracks and Glass Carving from Non‐Symmetrically Converging Shocks

“…[4][5][6][7][8] Nano-scratching is another technique based on indentation, but the tip that presses the surface moves laterally, generating microscopic channels on the material surface. [9] Recently, abrasive nanoparticles driven by ultrasonic vibration [10,11] have been used to study the hardness of materials and also for micro-machining.…”

Nano‐Cracks and Glass Carving from Non‐Symmetrically Converging Shocks

Numerical investigation of the effects of operating parameters in the vibration assisted nano impact machining of single crystalline silicon by loose abrasive using molecular dynamics simulation

Damage evolution in vibration assisted nano impact machining by loose abrasives at elevated temperatures: A numerical study