Micro/Nano Manufacturing

doi:10.3390/books978-3-03921-170-8

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Micro/Nano Manufacturing

Edited by

September 2019

208 pages

ISBN978-3-03921-169-2 (Paperback)
ISBN978-3-03921-170-8 (PDF)

https://doi.org/10.3390/books978-3-03921-170-8

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This book is a reprint of the Special Issue Micro/Nano Manufacturing that was published in

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

Micro manufacturing involves dealing with the fabrication of structures in the size range of 0.1 to 1000 µm. The scope of nano manufacturing extends the size range of manufactured features to even smaller length scales—below 100 nm. A strict borderline between micro and nano manufacturing can hardly be drawn, such that both domains are treated as complementary and mutually beneficial within a closely interconnected scientific community. Both micro and nano manufacturing can be considered as important enablers for high-end products. This Special Issue of Applied Sciences is dedicated to recent advances in research and development within the field of micro and nano manufacturing. The included papers report recent findings and advances in manufacturing technologies for producing products with micro and nano scale features and structures as well as applications underpinned by the advances in these technologies.

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Keywords

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