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Frontiers in Ultra-Precision Machining
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Ultra-precision machining is a multi-disciplinary research area that is an important branch of manufacturing technology. It targets achieving ultra-precision form or surface roughness accuracy, forming the backbone and support of today’s innovative technology industries in aerospace, semiconductors, optics, telecommunications, energy, etc. The increasing demand for components with ultra-precision accuracy has stimulated the development of ultra-precision machining technology in recent decades. Accordingly, this Special Issue includes reviews and regular research papers on the frontiers of ultra-precision machining and will serve as a platform for the communication of the latest development and innovations of ultra-precision machining technologies.
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Keywords
- Al/Ni multilayers
- Aluminum
- atmospheric pressure plasma jet
- atom probe tomography (APT)
- benchmark coincidence
- blisk
- Bouc–Wen model
- cluster effect
- combined repairing process
- computer-controlled optical surfacing
- continuous phase plate
- crystal orientation
- cutting forces
- cutting strategy
- Data processing
- data-dependent systems
- diamond grinding
- diamond tool
- dwell time algorithm
- dynamic modeling
- dynamic switching probability strategy
- eccentricity
- electrical properties
- electrochemical discharge machining (ECDM)
- electrode wear ratio (EWR)
- electrorheological polishing
- elementary approximation
- evolution law
- ferrous metal
- flange
- flexible grinding
- flower pollination algorithm
- focused ion beam (FIB)
- fused silica
- high accuracy and efficiency
- high aspect ratio
- high-shear low-pressure
- History of engineering & technology
- integrated electrode
- ion beam sputtering
- lift-out
- lubricant
- machining parameters
- machining stability
- magnetorheological removing method
- material removal rate (MRR)
- microlens array
- microstructured surfaces
- Molecular Dynamics
- morphology evolution
- multi-physics coupling simulation
- n/a
- Nano-ZrO2 ceramics
- narrow channel
- optimization
- overcut (OC)
- parameter identification
- piezoelectric actuator
- piezoelectric hysteresis
- polar microstructures
- polishing tool
- removal function
- reversal method
- roughness
- shear thickening fluid
- single crystal silicon
- single-point diamond turning
- single-wedge
- small-scale damage
- spherical shell
- subsurface damage
- surface characterization
- surface quality
- surface residual material
- surface topography
- surface topography variation
- Technology, engineering, agriculture
- Technology: general issues
- thin-walled part
- three-dimensional elliptical vibration cutting
- three-dimensional surface roughness
- tool material
- tool servo diamond cutting
- ultra-precision grinding
- ultra-precision machining
- vibration-assisted electrochemical machining (ECM)
- wall-thickness
Links
DOI: 10.3390/books978-3-0365-3863-1Editions