Micro/Nano Manufacturing
Zimmermann, André||Dimov, Stefan
Micro/Nano Manufacturing
English[eng]
path adaptability||uncertainty quantification||hardening||empirical mode decomposition||microlens array mold||gaussian process modeling||multi-objective particle swarm optimization||micro reactors||XRD||surface roughness||water impermeability tests||nanocone array||additive manufacturing||antireflection nanostructure||ultraprecision machining||Surface-enhanced Raman scattering||micro stereolithography||optical encoder||micro assembly||micro-optics||nanosphere array||micro-assembly||injection molding||Portland limestone ternary fiber–cement nanohybrids||hot embossing||deterministic polishing||micro-lens array||process parameter optimization||TGA/dTG||intrinsic mode function||micro factories||three-dimensional elliptical vibration cutting||flow control||micro-EDM molds||Image segmentation||micro actuators||culture dish adapter||flexural strength||SERS||low PC clinker||MIP||selective laser melting||micro sensors||friction coefficient||design of experiments||Ti6Al4V||micro-spring||contactless embossing||micro and nano additive manufacturing||Taguchi’s method||nanoimprinting||perfusion culture||micro and nano manufacturing||data structure||fluid jet polishing||nitrogen supersaturation||spatial uncertainty modeling||active alignment||variable pitch path||conceptual design||feature extraction||blaze||micro-nozzle||product development||opto-ASIC||wafer-level optics||residual error optimization||stiffness control||surface engineering and interface nanotechnology||design for manufacturability||anodic aluminum oxide||plasma nitriding||micro 3D printing||hydrophobicity||grating||micro-fluidics||closed environment||chatter identification||small recess structure
Micro/Nano Manufacturing
English[eng]
path adaptability||uncertainty quantification||hardening||empirical mode decomposition||microlens array mold||gaussian process modeling||multi-objective particle swarm optimization||micro reactors||XRD||surface roughness||water impermeability tests||nanocone array||additive manufacturing||antireflection nanostructure||ultraprecision machining||Surface-enhanced Raman scattering||micro stereolithography||optical encoder||micro assembly||micro-optics||nanosphere array||micro-assembly||injection molding||Portland limestone ternary fiber–cement nanohybrids||hot embossing||deterministic polishing||micro-lens array||process parameter optimization||TGA/dTG||intrinsic mode function||micro factories||three-dimensional elliptical vibration cutting||flow control||micro-EDM molds||Image segmentation||micro actuators||culture dish adapter||flexural strength||SERS||low PC clinker||MIP||selective laser melting||micro sensors||friction coefficient||design of experiments||Ti6Al4V||micro-spring||contactless embossing||micro and nano additive manufacturing||Taguchi’s method||nanoimprinting||perfusion culture||micro and nano manufacturing||data structure||fluid jet polishing||nitrogen supersaturation||spatial uncertainty modeling||active alignment||variable pitch path||conceptual design||feature extraction||blaze||micro-nozzle||product development||opto-ASIC||wafer-level optics||residual error optimization||stiffness control||surface engineering and interface nanotechnology||design for manufacturability||anodic aluminum oxide||plasma nitriding||micro 3D printing||hydrophobicity||grating||micro-fluidics||closed environment||chatter identification||small recess structure