Arama Sonuçları - (( controlled release preparations. ) OR ( controlled release separation. ))*

Nano- and microencapsulation for foods /

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3D industrial printing with polymers / Yazar: Fink, Johannes Karl

İçindekiler: “…Methods of 3D Printing -- History -- Recently Developed Materials for 3D Printing -- Shrinkage Compensation -- Basic Principles -- 3D Printing -- Uses and Applications -- Heat Exchangers -- 3D Plastic Model -- Gradient Refractive Index Lenses -- Photoformable Composition -- Comb Polymers -- Post-Processing Infiltration -- Sensors and Biosensors -- Magnetic Separation -- Rapid Prototyping -- Variants of Rapid Prototyping -- 3D Microfluidic Channel Systems -- Aluminum and Magnesium Cores -- Cellular Composites -- Powder Compositions -- Organopolysiloxane Compositions -- Thermoplastic Powder Material -- Plasticizer-Assisted Sintering -- Radiation-Curable Resin Composition -- Solution Mask Liquid Lithography -- Vat Polymerization -- Poly(dimethyl siloxane)-Based Photopolymer -- Hot Lithography -- Ambient Reactive Extrusion -- Micromanufacturing Engineering -- Analytical Uses -- Gas Sensors -- Chemical Engineering -- Gas Separation -- Hierarchical Monoliths for Carbon Monoxide Methanation -- Rotating Spinnerets -- Objects with Surface Microstructures -- Lightweight Cellular Composites -- Textiles -- 3D Printed Polymers Combined with Textiles -- Mechanical and Electrical Contacting -- Soft Electronic Textiles -- 3D Textiles Polymers -- Polymer Matrix Composites -- Biocomposite Filaments -- Nanocomposites -- Nanowires -- Fiber Reinforced Polymers -- Carbon Fiber Polymer Composites -- FDM Printing -- Powder Bed and Inkjet Head 3D Printing -- Stereolithography -- Selective Laser Sintering -- Sequential Interpenetrating Polymer Network -- 3D Printable Diamond Polymer Composite -- Adhesives for 3D Printing -- Voronoi-Based Composite Structures -- Graphene Oxide Reinforced Complex Architectures -- Multiwalled Carbon Nanotube Composites -- Multifunctional Polymer Nanocomposites -- Additive Manufacturing -- Thermosetting Polymers -- UV Curable Materials -- (Meth)acrylate Monomers -- Thiol-ene and Thiol-yne Systems -- Epoxides -- Visible Light-Curable and Visible Wavelength-Transparent Resin -- Poly(ether ether ketone) -- Lasers -- Ultra-High MolecularWeight PE -- Production of PP Polymer Powders -- Acrylate-Based Compositions -- Dimensionally Stable Acrylic Alloys -- Oligoester Acrylates -- Standards -- Biomedical Applications -- Color -- Particle-Free Emulsions -- Shape Memory Polymers -- Synthesis with Stereolithography -- Flexible Electronics -- Magnetically Responsive Shape Memory Polymer -- Sequential Self-Folding Structures -- Multi-shape Active Composites -- Radiation Sensitizers -- Shape Memory Alloy Actuating Wire -- Metal Electrode Fabrication -- 3D Printing -- Water-Soluble Polymer -- Water-Washable Resin Formulations -- Extremely Viscous Materials -- Tunable Ionic Control of Polymeric Films -- Photopolymer Compositions -- Mechanical Properties of UV Curable Materials -- High-Performance Photopolymer with Low-Volume Shrinkage -- Dual Initiation Wavelengths for 3D Printing -- Crosslinked Polymers -- Recycled Plastics -- 3D Printed Fiber Reinforced Portland Cement Paste -- Polymer-Derived Ceramics -- Photocurable Ceramic/Polymer Composites -- Ceramic Matrix Composite Structures -- Selective Laser Melting -- Stereolithography Resin for Rapid Prototyping of Ceramics and Metals Airplanes and Cars -- Airplanes -- Material Testing Standards -- Lightweight Aircraft Components -- Aircraft Spare Parts -- Polymer Laser Sintering -- Composites Part Production -- DeployableWing Designs -- Additive Manufacturing for Aerospace -- Fiber Reinforced Polymeric Components -- Manufacturing of Aircraft Parts -- Multirotor Vehicles -- Flame Retardant Aircraft Carpet -- Aircraft Cabins -- Additive Manufacturing of Solid Rocket Propellant Grains -- High Temperature Heating System -- Aerospace Propulsion Components -- Antenna RF Boxes -- Cyanate Ester Clay Nanocomposites -- Bionic Lightweight Design -- Cars -- Laser Sintering -- Automotive Repair Systems -- Improving Aerodynamic Shapes -- Common Automotive Applications -- Thermomechanical Pulp Fibers -- Polyamic Acid Salts -- Recycled Tempered Glass from the Automotive Industry Electric and Magnetic Uses -- Electric Uses -- Conductive Microstructures -- Modular Supercapacitors -- Active Electronic Materials -- Piezoelectric Materials -- Holographic Metasurface Antenna -- Waveguide -- Fuel Cell -- Batteries -- Magnetic Uses -- Polymer-Based Permanent Magnets -- Bonded Magnets -- Strontium Ferrite -- Soft-Magnetic Composite -- Discontinuous Fiber Composites by 3D Magnetic Printing Medical Applications -- Basic Procedures -- Image Acquisition -- 3D Printing -- Microvalve-Based Bioprinting -- 3D Printed Organ Models for Surgical Applications -- Organ Bioprinting -- Materials -- Liver -- Heart -- Cartilage -- Bionic Ears -- Skin -- Scaffolds -- Personalized Implants -- Neural Tissue Models -- Bioinks -- Cytocompatible Bioink -- Hydrogel Bioinks -- Dentin-Derived Hydrogel Bioink -- Decellularized Extracellular Matrix Materials -- Silk-Based Bioink -- Nanoengineered Ionic-Covalent Entanglement Bioinks -- Living Skin Constructs -- Cell-Laden Scaffolds -- Patient-Specific Bioinks -- Presurgical Simulation -- Models with Integrated Soft Tactile Sensors -- Dental Applications -- Prosthetics -- Fluidic Devices -- 3D Bioprinting of Tissues and Organs -- 3D Bioprinting Techniques -- Pigmented Human Skin Constructs -- Strategies for Tissue Engineering -- Bone Tissue -- Neuroregenerative Treatment -- 3D Tissues/Organs Combined with Microfl uidics -- 3D Microfi brous Constructs -- Biosynthetic Cellulose Implants -- Polysaccharides -- Corneal Transplants -- Hydrogels from Collagen -- Dissolved Cellulose -- Hydrogels from Hyaluronic Acid and Methylcellulose -- Stem Cells -- Autografts -- Drug-Eluting Coronary Stents -- Biomedical Devices -- Soft Somatosensitive Actuators Pharmaceutical Uses -- Drug Release -- Pharmaceutical 3D Printing -- Pharmaceutically Acceptable Amorphous Polymers -- Paracetamol Oral Tablets -- Patient-Specific Liquid Capsules -- Thermolabile Drugs -- Composite Tablets -- Transdermal Drug Delivery -- Chip Platforms for Microarray -- 3D Bioprinting -- Index --Acronyms --Chemicals --General Index.…”
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Biomimetic approaches for biomaterials development /

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31st International Symposium on Shock Waves 1 Fundamentals /

İçindekiler: “…Turbulence Interaction -- Chapter61.On the analysis of full-spectrum k-distributions databases for thermal radiation in shock waves within CO2 rich atmospheres -- Chapter62.Measurement of Electron Density by Heterodyne Interferometer for Atmospheric Pressure Plasmas -- Chapter63.Parametrical Quasiresonant Amplification of Alfven Waves in Heat-Releasing Isentropic Unstable Medium -- Chapter64.Two-Dimensional MHD Structures in Heat-Releasing Plasma -- Chapter65.Mode transition from fast gas-ionization wave to laser-supported detonation wave -- Chapter66.Gas-Dynamic Flow behind Shock Wave Initiated by a Sliding Surface Discharge Channel -- Chapter67.Jet Formation of SF6 Bubble Induced by Incident and Reflected Shock Waves -- Chapter68.Interaction of Cylindrical Converging Shock Wave with SF6 Gas Bubble -- Chapter69.Numerical Study on Converging Richtmyer-Meshkov Instability -- Chapter70.Light/heavy converging Richtmyer-Meshkov instability in a conventional shock tube -- Chapter71.The Imploding Cylindrical Richtmyer-Meshkov Instability with a Two-Fluid Plasma Model -- Chapter72.Experimental Study on a Single-mode Interface Impacted by a Converging Shock -- Chapter73.The Richtmyer-Meshkov instability of a flat interface initiated by a perturbed shock -- Chapter74.A study of variable density mixing with reshock -- Chapter75.Wave Patterns in the Interaction of an Incident Shock with a Heavy Elliptic Gas Cylinder -- Chapter76.Reshocked Richtmyer-Meshkov instability: Numerical study on interface stretch and vortex cores characterization -- Chapter77.Self-generated magnetic fields in the plasma Richtmyer-Meshkov instability -- Chapter78.The Evolution of a Square SF6 Gas Cylinder Impacted by a Converging Shock Wave -- Chapter79.Electron shock dynamics in the two-fluid plasma Richtmyer-Meshkov instability -- Chapter80.The Evolution of Concentration and Velocity-Fluctuations in the Richtmyer-Meshkov Instability -- Chapter81.Numerical Investigation of High-Temperature Effects in a Shock-Bubble Interaction.…”
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Seismic Evaluation and Design of Petrochemical and Other Industrial Facilities. Yazar: Facilities, Task Committee on Seismic Evaluation and Design of Petrochemical

İçindekiler: “…5.3.4 Elements of Structures, Nonstructural Components, and Equipment -- 5.3.5 Foundations -- 5.4 Structural Details -- 5.4.1 Introduction -- 5.4.2 Steel -- 5.4.3 Concrete and Foundations -- 5.4.4 Masonry -- 5.4.5 Timber -- 5.4.6 Base Isolation -- 5.5 Physical Interaction of Structures and Components -- 5.5.1 Introduction -- 5.5.2 General -- 5.5.3 Structure and Component Interaction -- 5.5.4 Pipeways -- 5.6 Geotechnical Considerations -- 5.6.1 Piled Foundations -- 5.6.2 Soil Strength Considerations -- 5.6.3 Geotechnical Site Investigations -- References -- Chapter 6: Walkdown Evaluations of Existing Facilities -- 6.1 Introduction -- 6.2 Basis for Performing Walkdowns -- 6.3 General Methodology -- 6.4 System Considerations -- 6.4.1 Emergency Systems -- 6.5 Evaluation of Components -- 6.5.1 Major Considerations -- 6.5.2 Other General Considerations -- 6.5.3 Evaluation of Specific Components -- 6.6 Limitations -- References -- Chapter 7: Design and Evaluation of Tanks at Grade -- 7.1 Introduction -- 7.2 Past Earthquake Performance of Flat-Bottomed Tanks -- 7.3 Walkthrough Inspection -- 7.4 Analytical Evaluation -- 7.4.1 Methods for Analysis of Unanchored Tanks -- 7.4.2 Methods for Analysis of Anchored Tanks -- 7.4.3 Stability -- 7.4.4 Freeboard Requirements -- 7.4.5 Uplift Calculations -- 7.4.6 Riveted and Bolted Tanks -- 7.4.7 Fiber-Reinforced Plastic (Fiberglass) Tanks -- 7.5 Mitigation of Seismic Effects -- 7.6 Considerations for Future Investigation -- 7.7 Design of New Tanks -- References -- Chapter 8: Earthquake Contingency Planning -- 8.1 Introduction -- 8.2 Purpose -- 8.3 Scope of Response Plan -- 8.4 Pre-earthquake Preparation -- 8.5 Incident Recognition -- 8.6 Command and Control/Mobilization System -- 8.7 Roles and Responsibilities of Team Personnel -- 8.8 Inspection Methodology -- 8.9 Assembling of Inspection Data/Reporting Results.…”
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