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Science --- Chemistry --- Engineering --- Natural science --- Natural sciences --- Science of science --- Sciences --- Construction --- Industrial arts --- Technology --- Physical sciences --- Nanostructures. --- Nanotechnology. --- Microtechnology. --- Microfabrication --- Micromachining --- Micromanufacturing --- Microfabrications --- Micromachinings --- Micromanufacturings --- Microtechnologies --- Nanotechnologies --- Microchemistry --- Nanotubes --- Microchip Analytical Procedures --- Nanostructures --- Nanomaterials --- Nanostructured Materials --- Material, Nanostructured --- Materials, Nanostructured --- Nanomaterial --- Nanostructure --- Nanostructured Material --- Nanotechnology --- Molecular Imprinting

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In recent years, large-scale advances in technology have led to greater understanding of the world on a much tinier scale: the biomolecular level. In Micro and Nano Technologies in Bioanalysis: Methods and Protocols, expert researchers from across the globe explore the technology which makes this analysis possible, investigating the worlds of microfluidics and nanotechnologies, and examining physical science techniques for the separation, detection, manipulation, and analysis of biomolecules. This volume contains innovative protocols on the application of microfluidics and the utilization of physical science-related technologies that will prove to be invaluable in the field of molecular biology. Chapters contain cutting edge applications of emerging nanotechnologies, including quantum dots and molecular fluorescence for the imaging and tracking of biomolecules. Composed in the highly successful Methods in Molecular Biology™ series format, each chapter contains a brief introduction, step-by-step methods, a list of necessary materials, and a Notes section which shares tips on troubleshooting and avoiding known pitfalls. Comprehensive and groundbreaking, Micro and Nano Technologies in Bioanalysis: Methods and Protocols is a necessary tool for cellular biologists, biochemists, microbiologists, geneticists and medical researchers alike. .

Microfluidics --- Nanotechnology --- Methods --- Laboratory Manuals --- Rheology --- Miniaturization --- Investigative Techniques --- Publication Formats --- Natural Science Disciplines --- Microtechnology --- Technology --- Physics --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Disciplines and Occupations --- Publication Characteristics --- Technology, Industry, and Agriculture --- Technology, Industry, Agriculture --- Gastroenterology --- Medicine --- Health & Biological Sciences --- Physic --- Arts, Industrial --- Industrial Arts --- Microfabrication --- Micromachining --- Micromanufacturing --- Microfabrications --- Micromachinings --- Micromanufacturings --- Microtechnologies --- Natural Sciences --- Physical Sciences --- Discipline, Natural Science --- Disciplines, Natural Science --- Natural Science --- Natural Science Discipline --- Physical Science --- Science, Natural --- Science, Physical --- Sciences, Natural --- Sciences, Physical --- Investigative Technics --- Investigative Technic --- Investigative Technique --- Technic, Investigative --- Technics, Investigative --- Technique, Investigative --- Techniques, Investigative --- Miniaturisation --- Miniaturisations --- Miniaturizations --- Flowmetry --- Velocimetry --- Velocimetries --- Methodological Studies --- Methodological Study --- Procedures --- Studies, Methodological --- Study, Methodological --- Method --- Procedure --- Microfluidic --- Nanotechnologies --- Molecular technology --- Nanoscale technology --- Chemistry. --- Biotechnology. --- Nanotechnology. --- Materials science. --- Biomaterials. --- Nanotechnology and Microengineering. --- Materials Science, general. --- Engineering. --- Materials. --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Construction --- Industrial arts --- Biocompatible materials --- Biomaterials --- Medical materials --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- High technology --- Chemical engineering --- Genetic engineering --- Bioartificial materials --- Hemocompatible materials --- Biomaterials (Biomedical materials)

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Product miniaturization is a trend for facilitating product usage, enabling product functions to be implemented in microscale geometries, and aimed at reducing product weight, volume, cost and pollution. Driven by ongoing miniaturization in diverse areas, including medical devices, precision equipment, communication devices, micro-electromechanical systems and microsystems technology, the demands for micro metallic products have been tremendously increased. Such a trend requires the development of advanced technology for the micromanufacturing of metallic materials, with regard to producing high-quality micro metallic products that possess excellent dimensional tolerances, the required mechanical properties and improved surface quality. Micromanufacturing differs from conventional manufacturing technology in terms of materials, processes, tools, and machines and equipment, due to the miniaturization nature of the whole micromanufacturing system, which challenges the rapid development of micromanufacturing technology. Such a background has prompted and encouraged us to publish a scholarly book on the topic of the micromanufacturing of metallic materials, with the purpose of providing readers with a valuable document that can be used in the research and development of micromanufacturing technology. This book will be useful for both theoretical and applied research aimed at micromanufacturing technology, and will serve as an important research tool, providing knowledge to be returned to the community not only as valuable scientific literature, but also as technology, processes and productivities.

History of engineering & technology --- magnesium alloy --- equal channel angular pressing --- processing route --- miniaturized tensile tests --- slip systems --- twinning --- slow tool servo --- ultra-precision diamond turning --- micro lens arrays (MLAs) --- chatter mark --- forming method --- metallic glasses --- thermoplastic microforming --- ultrasonic vibration --- formability --- freeform optics --- tool path generation --- large aperture optics --- ultra-thin foil --- slip system evolution --- tensile process --- crystal plasticity --- numerical simulation --- grain orientation --- fine blanking --- metallic microgear --- finite element analysis --- electron backscatter diffraction --- critical fracture value --- packaging --- copper substrate --- micro-embossing --- micro-textures --- plasma printing --- micro-punch array --- screen printing --- AISI316 --- surface microstructure --- electrically-assisted rolling --- current density --- T2 copper foil --- additive manufacturing --- residual stress --- thermal stress --- distortion --- prevention --- modeling --- computation --- electrically assisted --- bio-inspired functional surface --- bulk metallic glass --- photolithography --- acoustic softening --- residual effect --- microthin sheet --- forming limit --- punch load --- cut surface quality --- optimum clearance --- blanking experimental --- finite element method analysis --- EDM --- surface --- optimization --- machining --- titanium --- difficult-to-cut material --- Inconel 718 alloy --- micro-drilling --- aspect ratio hole --- deionized water --- micromanufacturing --- metallic materials --- miniaturization --- micro products

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This book derives from the Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019) that has been launched as a joint issue of the journals Materials and Applied Sciences. The 29 contributions published in this Special Issue of Materials present cutting-edge advances in the field of manufacturing engineering focusing on additive manufacturing and 3D printing; advances and innovations in manufacturing processes; sustainable and green manufacturing; manufacturing of new materials; metrology and quality in manufacturing; industry 4.0; design, modeling, and simulation in manufacturing engineering; and manufacturing engineering and society. Among them, the topic "Additive Manufacturing and 3D Printing" has attracted a large number of contributions in this journal due to its widespread popularity and potential.

History of engineering & technology --- Bayesian inference --- control chart --- dynamic methodology --- hidden Markov chain --- occupational accident --- risk assessment --- risk control --- risk management --- Fused Deposition Modeling --- roughness --- Polylactic Acid --- print orientation angle --- build angle --- titanium alloys --- sustainable lubrication --- cryogenic lubrication --- MQL --- OD grinding --- CBN --- dressing --- rotary dresser --- wear --- CVD diamond --- additive manufacturing --- 3D printing --- fused filament fabrication --- flexural properties --- fatigue --- PLA --- cements --- ballast waste --- cornubianite --- mechanical properties --- Spain --- joining --- forming --- sheet–tube connections --- experimentation --- modelling and simulation --- quality enhancement --- process parameters --- design optimization --- calibration artifact --- kinematic support --- dimensional metrology --- machine tool --- length measurement --- rapid prototyping --- efficiency --- printing time --- experimental model --- prepeg --- carbon fiber --- Raman spectroscopy --- AWJM --- waterjet --- CFRP --- kerf taper --- surface quality --- metal forming --- bi-metallic --- cylinders --- compression --- finite elements --- microscopy --- cold expansion --- mandrel --- cold-forming --- swaging --- shipbuilding --- LARG paradigm --- supply chain --- coordinate metrology --- confocal microscopy --- measurement --- calibration --- traceability --- uncertainty --- quality assessment --- digital image correlation --- indentation process --- incremental forming --- finite element method --- material flow --- AWJM (Abrasive waterjet machining) --- CFRTP (Carbon fiber-reinforced thermoplastics) --- RSM (response surface methodology) --- ANOVA (Analysis of variance) --- C/TPU (carbon/polyurethane) --- image processing --- position control --- accuracy --- micromachines --- position compensation --- inverse conical perspective --- micromanufacturing --- manufacturing systems --- mechatronics --- FDM --- bimodulus materials --- standards --- finite element analysis (FEA) --- ABS --- anisotropy --- infill density --- layer orientation --- ASTM D638–14:2014 --- ISO 527–2:2012 --- grounding electrodes in two-layered soils --- step and touch potentials --- step potentials upper bound --- orthoses --- prostheses --- fused deposition modeling --- laminated object manufacturing --- selective laser sintering --- laser tracker --- Monte Carlo method --- verification --- green manufacturing --- sustainability metrics --- cleaner product life cycle --- material removal processes --- hybrid components --- light alloys --- magnesium --- aluminum --- drilling --- dry machining --- cold compressed air --- lubrication and cooling systems --- arithmetical mean roughness --- Ra --- average maximum height --- Rz --- repair and maintenance operations --- fused deposition modelling --- composites --- polymer injection moulding --- polyamide --- metal matrix composite --- Al-SiC --- microstructure --- machining --- cooling compressed air --- thrust force --- energy --- material removed rate --- PEEK-GF30 --- multi-response optimization --- sustainable manufacturing --- metrology --- industry 4.0 --- modeling and simulation --- quality in manufacturing --- technological and industrial heritage

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This book derives from the Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019) that has been launched as a joint issue of the journals Materials and Applied Sciences. The 29 contributions published in this Special Issue of Materials present cutting-edge advances in the field of manufacturing engineering focusing on additive manufacturing and 3D printing; advances and innovations in manufacturing processes; sustainable and green manufacturing; manufacturing of new materials; metrology and quality in manufacturing; industry 4.0; design, modeling, and simulation in manufacturing engineering; and manufacturing engineering and society. Among them, the topic "Additive Manufacturing and 3D Printing" has attracted a large number of contributions in this journal due to its widespread popularity and potential.

History of engineering & technology --- Bayesian inference --- control chart --- dynamic methodology --- hidden Markov chain --- occupational accident --- risk assessment --- risk control --- risk management --- Fused Deposition Modeling --- roughness --- Polylactic Acid --- print orientation angle --- build angle --- titanium alloys --- sustainable lubrication --- cryogenic lubrication --- MQL --- OD grinding --- CBN --- dressing --- rotary dresser --- wear --- CVD diamond --- additive manufacturing --- 3D printing --- fused filament fabrication --- flexural properties --- fatigue --- PLA --- cements --- ballast waste --- cornubianite --- mechanical properties --- Spain --- joining --- forming --- sheet–tube connections --- experimentation --- modelling and simulation --- quality enhancement --- process parameters --- design optimization --- calibration artifact --- kinematic support --- dimensional metrology --- machine tool --- length measurement --- rapid prototyping --- efficiency --- printing time --- experimental model --- prepeg --- carbon fiber --- Raman spectroscopy --- AWJM --- waterjet --- CFRP --- kerf taper --- surface quality --- metal forming --- bi-metallic --- cylinders --- compression --- finite elements --- microscopy --- cold expansion --- mandrel --- cold-forming --- swaging --- shipbuilding --- LARG paradigm --- supply chain --- coordinate metrology --- confocal microscopy --- measurement --- calibration --- traceability --- uncertainty --- quality assessment --- digital image correlation --- indentation process --- incremental forming --- finite element method --- material flow --- AWJM (Abrasive waterjet machining) --- CFRTP (Carbon fiber-reinforced thermoplastics) --- RSM (response surface methodology) --- ANOVA (Analysis of variance) --- C/TPU (carbon/polyurethane) --- image processing --- position control --- accuracy --- micromachines --- position compensation --- inverse conical perspective --- micromanufacturing --- manufacturing systems --- mechatronics --- FDM --- bimodulus materials --- standards --- finite element analysis (FEA) --- ABS --- anisotropy --- infill density --- layer orientation --- ASTM D638–14:2014 --- ISO 527–2:2012 --- grounding electrodes in two-layered soils --- step and touch potentials --- step potentials upper bound --- orthoses --- prostheses --- fused deposition modeling --- laminated object manufacturing --- selective laser sintering --- laser tracker --- Monte Carlo method --- verification --- green manufacturing --- sustainability metrics --- cleaner product life cycle --- material removal processes --- hybrid components --- light alloys --- magnesium --- aluminum --- drilling --- dry machining --- cold compressed air --- lubrication and cooling systems --- arithmetical mean roughness --- Ra --- average maximum height --- Rz --- repair and maintenance operations --- fused deposition modelling --- composites --- polymer injection moulding --- polyamide --- metal matrix composite --- Al-SiC --- microstructure --- machining --- cooling compressed air --- thrust force --- energy --- material removed rate --- PEEK-GF30 --- multi-response optimization --- sustainable manufacturing --- metrology --- industry 4.0 --- modeling and simulation --- quality in manufacturing --- technological and industrial heritage