Vibration assisted machining (VAM) is one of the hybrid machining processes for improving the machined surface quality. VAM performance is mainly influenced by the combination of machining and vibration control parameters, where surface roughness value (Ra) became the benchmarking indicator. It is difficult to determine the optimum parameter combination to produce high precision products, especially for micro-milling, due to the interconnected correlation among parameters. The benefits of high-speed machining with VAM are high material removal rate and shorter machining time than low-speed machining. VAM operation at high-speed machining is still limited due to the high possibility of chatter occurrence. Therefore, this research aims to eva...
Vibration-assisted machining (VAM) is an external energy assisted machining method to improve the ma...
AbstractVibration assisted machining (VAM)adds sinusoidal tool vibration to the conventional machini...
AbstractIncreasing demand for precision miniaturised components made of hard and brittle materials c...
Vibration assisted machining (VAM) is one of the hybrid machining processes for improving the machin...
Advancing of micro-milling process via ultrasonic vibration assist has been proven able to improve ...
Vibration assisted machining has been proven many times for its capability to improve fabrication pr...
Vibration assisted machining combines precision machining with the application of small-amplitude vi...
Two dimensional Ultrasonic vibration assisted milling (2D UVAM) well knows process that involved in ...
AbstractAn ultrasonic vibration assisted micro-milling (UVAM) with longitudinal vibration of workpie...
Two dimensional Ultrasonic vibration assisted milling (2D UVAM) well knows process that involved in ...
Two-dimensional vibration-assisted machining (VAM) is a technique used to improve the cutting perfor...
In vibration-assisted machining (VAM) a cutting tool moves at high frequency in a small-amplitude (...
Abstract-Vibration-assisted machining (VAM) has been proposed for tens of years and attracts a lot o...
So far, the industrial application of ultrasonic vibration assistance has been successful in continu...
PhD ThesisPrecision micro components are increasingly in demand for various engineering industries, ...
Vibration-assisted machining (VAM) is an external energy assisted machining method to improve the ma...
AbstractVibration assisted machining (VAM)adds sinusoidal tool vibration to the conventional machini...
AbstractIncreasing demand for precision miniaturised components made of hard and brittle materials c...
Vibration assisted machining (VAM) is one of the hybrid machining processes for improving the machin...
Advancing of micro-milling process via ultrasonic vibration assist has been proven able to improve ...
Vibration assisted machining has been proven many times for its capability to improve fabrication pr...
Vibration assisted machining combines precision machining with the application of small-amplitude vi...
Two dimensional Ultrasonic vibration assisted milling (2D UVAM) well knows process that involved in ...
AbstractAn ultrasonic vibration assisted micro-milling (UVAM) with longitudinal vibration of workpie...
Two dimensional Ultrasonic vibration assisted milling (2D UVAM) well knows process that involved in ...
Two-dimensional vibration-assisted machining (VAM) is a technique used to improve the cutting perfor...
In vibration-assisted machining (VAM) a cutting tool moves at high frequency in a small-amplitude (...
Abstract-Vibration-assisted machining (VAM) has been proposed for tens of years and attracts a lot o...
So far, the industrial application of ultrasonic vibration assistance has been successful in continu...
PhD ThesisPrecision micro components are increasingly in demand for various engineering industries, ...
Vibration-assisted machining (VAM) is an external energy assisted machining method to improve the ma...
AbstractVibration assisted machining (VAM)adds sinusoidal tool vibration to the conventional machini...
AbstractIncreasing demand for precision miniaturised components made of hard and brittle materials c...