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Frontiers in Ultra-Precision Machining, Volume II
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Ultra-precision machining is a multi-disciplinary research area that is an important branch of manufacturing technology. With continuous advancements in science and technology and the diversification of industrial needs, ultra-precision machining has become an indispensable component of modern industry. It is widely used in aerospace, semiconductors, optics, microelectronics, automotive manufacturing, biomedical, energy, and other fields with the goal of realizing ultra-precision shape machining or improving surface roughness. The increasing demand for components with ultra-precision accuracy has stimulated the development of ultra-precision machining technology in recent decades. Therefore, this reprint brings together research papers on the frontiers of ultra-precision machining in the hope of advancing the development of related industrial technologies and providing a theoretical basis for subsequent research by relevant scholars.
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Keywords
- 3D EVC
- abrasive water jet
- aspheric mirror
- borosilicate glass
- burr
- characteristic strength
- chip morphology
- chipping
- coupling
- cracks
- Cutting
- cutting angle
- cutting force
- cutting performance
- densification
- deterministic polishing
- Donaldson reversal method
- error compensation model
- ethylene propylene diene monomer (EPDM)
- femtosecond pulses
- filament
- finite element analysis
- Finite element method
- fixed abrasive pad
- fluid medium
- Friction
- friction and wear
- friction coefficient
- fused silica
- glass cutting
- grinding force
- grinding pass
- grinding temperature
- grinding time
- grinding wheel
- grinding wheel wear
- hatch
- high carbon chromium bearing steel (GCr15)
- high-speed rail grinding
- Hilbert marginal spectrum
- image stitching
- Laser processing
- longitudinal-torsional ultrasonic grinding
- magnetic field assisted finishing
- material removal
- material removal distributions
- material removal rate
- melt pool flow evolution
- micromanipulation platform
- microstructure formation mechanism
- milling force
- milling temperature
- Molecular Dynamics
- multiple linear regression
- nano-cutting
- nanometer-scale measurement
- NdFeB
- non-contact ultrasonic abrasive machining (NUAM)
- optical polishing
- passive grinding
- picosecond laser
- plasma etching
- plasma temperature
- polishing
- precision testing
- quartz glass
- radial error
- range analysis
- removal function
- residual stress
- roughness
- silicon carbide
- simulation
- size effect
- sliding contact
- surface morphology
- surface quality
- surface roughness
- surface shape
- surface texture
- systematic error
- TC4 titanium alloy
- three-point method
- Ti-6Al-4V alloy
- tool wear
- traditional micromilling
- ultra-precision machining
- ultra-precision shaping
- ultra-precision spindle
- ultrasonic vibration-assisted micromilling
- wavelet packet energy coefficient
- wear morphology
Links
DOI: 10.3390/books978-3-7258-1565-4Editions