Fly Cutting Technology for Ultra-precision Machining

Suet To (Editor), Sujuan Wang

Research output: Authored / edited bookResearch book or monograph (as author)Academic research

Abstract

This handbook covers the fly cutting technique, an ultra-precision mechanical machining technology which is regarded as the fastest and most reliable low-cost machining method to generate high quality complex surfaces. The ultra-precision raster milling provides more flexibility and suitability for freeform and structural surfaces with a uniform quality with sub-micrometric form error and nanometric surface roughness. These surfaces are widely applied into optics, medicine, biotechnology, electronics, and communications. The fundamental and latest advancing knowledge of fly-cutting technology is important for the future development and applications in ultra-precision mechanical machining technology. This book provides a good reference for fly-cutting technology in ultra-precision machining for undergraduate and postgraduate students, researchers, engineers, and postdoctoral fellow in advanced manufacturing area. It gives the audience an overview of the working principles, processmechanism, salient features, applications, and research directions of ultra-precision fly-cutting technology.
Original languageEnglish
PublisherSpringer Nature
Number of pages458
Edition1
ISBN (Electronic)9789819907380
ISBN (Print)9789819907373
DOIs
Publication statusPublished - 24 Aug 2023

Publication series

NamePrecision Manufacturing
PublisherSpringer Singapore
ISSN (Print)2522-5464
ISSN (Electronic)2522-5472

Keywords

  • ultra-precision manufacturing
  • fly cutting
  • fly cutting spindle vibration
  • low-cost machining
  • ultra-precision raster milling
  • fly cutting nanometric surface roughness
  • fly cutting surface generation
  • fly cutting spindle Inclination
  • fly cutting tool wear
  • ultra-precision mechanical machining

Fingerprint

Dive into the research topics of 'Fly Cutting Technology for Ultra-precision Machining'. Together they form a unique fingerprint.

Cite this