Affiliation:
1. Therm, Inc., Ithaca, N. Y.
Abstract
Investigations are reported on the influence on removal rate of slurry liquid cavitation, low temperature, liquid metal, and stress corrosion embrittlement of the work material, tool vibration amplitude, grit size and method of application of slurry, and the influence of heat-treatment and applied stress conditions of the workpiece. From these studies it is postulated that there may be three basic mechanisms involved in the ultrasonic machining process—microchip removal and material displacement by plastic deformation, and particle removal by fracture.
Cited by
21 articles.
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1. An insight on ultrasonic machining technology;Advanced Machining and Finishing;2021
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3. Review on effect machining parameters on performance of natural fibre–reinforced composites (NFRCs);Journal of Thermoplastic Composite Materials;2018-09-05
4. Mechanical Machining;Materials Forming, Machining and Tribology;2018
5. On the mechanism and mechanics of material removal in ultrasonic machining;International Journal of Machine Tools and Manufacture;2015-09