Vibration-assisted machining (VAM) is a process in which high-frequency small amplitude vibration is applied on tool or workpiece to improve cutting performance, especially for hard and brittle materials. It has been applied to several machining processes including drilling, turning, grinding, and ...
Vibration-assisted machining (VAM) combines precision machining with small-amplitude tool vibration to improve the fabrication process. It has been applied to a number of processes from turning to drilling to grinding [9,36]. The emphasis on this literature review is the turning process where VAM...
(http://creativecommons.org/licenses/by-nc-nd/3.0/).Selection and peer-review under responsibility of the Organizing Committee of GCMM 2014doi: 10.1016/j.proeng.2014.12.441 ScienceDirect12th GLOBAL CONGRESS ON MANUFACTURING AND MANAGEMENT, GCMM 2014 Vibration Assisted Conventional and Advanced Machi...
Compared to conventional machining (CM), ultrasonic vibration-assisted machining (UVAM) with high-frequency and small-amplitude has exhibited good cutting performances for advanced materials. In recent years, advances in ultrasonic generator, ultrasonic transducer, and horn structures have led to the rap...
Drilling of fiber reinforced plastics: a review J Mater Process Technol (2007) X.Wanget al. Investigation on thrust in vibration drilling of fiber-reinforced plastics J Mater Process Technol (2004) D.E.Brehlet al. Review of vibration-assisted machining ...
which are mainly the ultra-high speed machining, ultrasonic vibration-assisted machining and grinding, are employed to help cut inconel 718 and other difficult-to-cut materials. thus, the cutting performance improves and exhibits a distinct feature, which relates to the chip formation process. for ...
To achieve controllable drug release, microneedle-based active drug release systems have been developed. Active drug release systems, such as iontophoresis-driven [129], thermal-driven [130], vibration-assisted [131], and light-controllable [132] microneedle drug delivery systems, have been exploited...
To solve these problems, assisted machining has become the main direction to improve the machinability of hard and brittle materials. The following are three methods to enhance the machining performance of hard and brittle materials: ultrasonic vibration-assisted cutting, ion implantation-assisted nano-...
Schematic diagram of ultrasonic-assisted forming system [1–3] Full size image Since the discovery of the “softening effect” by Blaha [4], where the forming force of zinc crystals is significantly reduced by superimposing ultrasonic vibration (UV) during deformation, many researchers have conducted...
For example, AFM-based 3D nanofabrication assisted using ultrasonic vibration has been reported to fabricate a set of 3D nanostructures on polymethyl methacrylate (PMMA) samples [73]. A modified AFM TBN process with enhanced throughput has been developed by combining fast reciprocating motions of a ...