05179nam 2201417z- 450 991056648600332120220506(CKB)5680000000037519(oapen)https://directory.doabooks.org/handle/20.500.12854/80984(oapen)doab80984(EXLCZ)99568000000003751920202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierFrontiers in Ultra-Precision MachiningBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (246 p.)3-0365-3864-X 3-0365-3863-1 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.History of engineering and technologybicsscTechnology: general issuesbicsscAl/Ni multilayersaluminumatmospheric pressure plasma jetatom probe tomography (APT)benchmark coincidencebliskBouc-Wen modelcluster effectcombined repairing processcomputer-controlled optical surfacingcontinuous phase platecrystal orientationcutting forcescutting strategydata processingdata-dependent systemsdiamond grindingdiamond tooldwell time algorithmdynamic modelingdynamic switching probability strategyeccentricityelectrical propertieselectrochemical discharge machining (ECDM)electrode wear ratio (EWR)electrorheological polishingelementary approximationevolution lawferrous metalflangeflexible grindingflower pollination algorithmfocused ion beam (FIB)fused silicahigh accuracy and efficiencyhigh aspect ratiohigh-shear low-pressureintegrated electrodeion beam sputteringlift-outlubricantmachining parametersmachining stabilitymagnetorheological removing methodmaterial removal rate (MRR)microlens arraymicrostructured surfacesmolecular dynamicsmorphology evolutionmulti-physics coupling simulationn/aNano-ZrO2 ceramicsnarrow channeloptimizationovercut (OC)parameter identificationpiezoelectric actuatorpiezoelectric hysteresispolar microstructurespolishing toolremoval functionreversal methodroughnessshear thickening fluidsingle crystal siliconsingle-point diamond turningsingle-wedgesmall-scale damagespherical shellsubsurface damagesurface characterizationsurface qualitysurface residual materialsurface topographysurface topography variationthin-walled partthree-dimensional elliptical vibration cuttingthree-dimensional surface roughnesstool materialtool servo diamond cuttingultra-precision grindingultra-precision machiningvibration-assisted electrochemical machining (ECM)wall-thicknessHistory of engineering and technologyTechnology: general issuesGuo Jiangedt1314122Wang ChunjinedtKang ChengweiedtGuo JiangothWang ChunjinothKang ChengweiothBOOK9910566486003321Frontiers in Ultra-Precision Machining3031733UNINA