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Book
Year: 2013 Publisher: Cleveland, Ohio : National Aeronautics and Space Administration, Glenn Research Center,
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Fibrous composites. --- Finite element method. --- Honeycomb structures.
Book
Year: 1965 Publisher: Madison, Wis. : Forest Products Laboratory, Forest Service, U.S. Department of Agriculture,
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Lightweight construction --- Honeycomb structures --- Sandwich construction --- Mechanical properties. --- Testing.
Book
ISBN: 3832599126 3832543597 9783832543594 Year: 2016 Publisher: Berlin/Germany Logos Verlag Berlin
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Long description: Die Optimierung dynamischer Dichtsysteme ist eine kostengünstige Methode zur Erhöhung der Wirkungsgrade, Lebensdauer und Betriebssicherheit von Turbomaschinen. Zuverlässige und effiziente Dichtsysteme lassen sich nur realisieren, wenn die Anstreifvorgänge zwischen rotierenden und statischen Komponenten sowie ihre Folgen schon bei der Auslegung berücksichtigt und im Betrieb beherrscht werden können. Bis heute sind die physikalischen Vorgänge beim Anstreifen jedoch nur unzureichend verstanden und es fehlen zuverlässige Modellierungsansätze für ihre Vorhersage. Die vorliegende Arbeit liefert einen essentiellen Beitrag zum Verständnis des Anstreifverhaltens und somit zur Optimierung einlaufender dynamischer Dichtsysteme mit Fokus auf Labyrinthdichtungen mit Einlaufbelägen aus Hohlkörperstrukturen. Mit Hilfe aufwändiger experimenteller Untersuchungen wird in dieser Arbeit ein tiefergreifendes physikalisches Verständnis der Anstreifvorgänge bereitgestellt. Die experimentell gewonnenen Erkenntnisse bilden schließlich die Grundlage für die Entwicklung eines Modellierungsansatzes, der erstmals unter Berücksichtigung aller Einflussparameter die zuverlässige Vorhersage des Anstreifverhaltens einlaufender Labyrinthdichtungen ermöglicht.
Honeycomb structures. --- Structures, Honeycomb --- Laminated materials --- Sandwich construction --- Labyrinthdichtung --- Honigwabeneinlaufbelag --- Tribologie --- Verschleiß --- Modellierung
ISBN: 0824799216 Year: 1998 Publisher: New York, NY : ©1998 Marcel Dekker,
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Offering discussions of structured catalysts and up-to-date approaches to catalytic processes, this work describes monolithic, membrane and arranged catalysts for use in two- and three-phase processes. It examines catalyst preparation, characterization, process development, modelling and optimization, as well as reactor design and operation.
Catalysts. --- Chemical reactors. --- Catalyse. --- Réacteurs chimiques. --- Honeycomb structures. --- Structures en nid d'abeille. --- Réacteurs chimiques.
Book
Year: 1968 Publisher: Washington, D.C. : National Aeronautics and Space Administration,
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Honeycomb structures --- Nuclear fuel elements --- Nusselt number. --- Thermodynamics. --- Design and construction.
Book
ISBN: 1402094035 9048181208 9786611950415 1281950416 1402094043 Year: 2009 Publisher: [Dordrecht] : Springer,
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Solid cellular materials (foams, lattice materials, honeycombs, etc.) are attractive and have resulted in the creation of an active subject for structural, mechanical and material scientists in recent years. Indeed, constant progress in the manufacturing techniques are improving their properties and reducing their costs; and mass productions and industrial applications are beginning. An important mechanical problem is how to characterize and model the mechanical behaviour of these materials, which is necessary for industrial design and numerical predictions involved in various applications such as light weight structures, energy absorbers. This volume contains twenty-two contributions written by distinguished invited speakers from all part of the world to the iutam symposium on mechanical properties of cellular materials. It provides a survey on recent advances in the characterisation and modeling of the mechanical properties of solid cellular materials under static and dynamic loading as well as their applications in lightweight structures analysis and design. This volume will be of interest to structural, mechanical and material scientists and engineers working on different aspects of this new class of materials (for example in microstructure observation, micromechanical and multiscale modeling, phenomenological models, structural impact behaviour and numerical validation).
Foamed materials -- Congresses. --- Honeycomb structures -- Congresses. --- Lattice dynamics -- Congresses. --- Civil & Environmental Engineering --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Materials Science --- Foamed materials --- Honeycomb structures --- Lattice dynamics --- Structures, Honeycomb --- Dynamics, Lattice --- Materials science. --- Mechanics. --- Mechanics, Applied. --- Continuum mechanics. --- Structural materials. --- Materials Science. --- Characterization and Evaluation of Materials. --- Theoretical and Applied Mechanics. --- Materials Science, general. --- Continuum Mechanics and Mechanics of Materials. --- Structural Materials. --- Surfaces (Physics). --- Mechanics, applied. --- Materials. --- Solid Mechanics. --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Surface chemistry --- Surfaces (Technology) --- Materials --- Material science --- Physical sciences --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The book is intended to collect the recent contributions (either research or review papers) to the development of the “Materials Chemistry” research fields by the Editorial Board Members of the Materials Chemistry Section of Molecules. The aim is to present the recent progress in the fields and to highlight the key role of Materials Chemistry in a multidisciplinary research context.
Technology: general issues --- hypergolic reactions --- sodium peroxide --- carbon nanosheets --- fullerols --- useful energy --- gold nanoparticles --- photothermal effect --- nanoink --- inkjet printing --- secure writing --- anti-counterfeit --- crosslinking polymerization (curing) --- decomposition --- degradation --- liquid and solid state --- phase transitions --- thermal analysis --- colloidal heterostructures --- seed mediated growth --- heterogeneous nucleation --- PbS/TiO2 heterostructure --- TiO2 nanocrystal defects --- antiferromagnet --- double perovskite --- high-κ dielectric --- nickel --- tellurium --- tungsten --- central nervous system (CNS) --- blood–brain barrier (BBB) --- self-assembled polymeric nanoparticles --- intranasal delivery --- biodistribution --- dendrimers --- microwaves --- hexaazatrinaphthylenes --- graphene nanoplatelets --- honeycomb structures --- modified couple stress theory --- quasi-3d hyperbolic shear deformation theory --- sandwich structures --- vibration analysis --- polymer-derived ceramics --- nanocomposites --- TiN --- TiC --- Si3N4 --- SiC --- structural properties --- cross-coupling reactions --- microwave irradiation --- ultrasounds --- mechanochemistry --- solvent-free --- water --- ionic liquids --- deep eutectic solvents --- sustainability --- nanomaterials --- electrochemical sensors --- hydroxycinnamic acids --- caffeine --- nitrite --- lead halide perovskites --- sensors --- photoluminescence --- amplified spontaneous emission --- thin films --- hybrid hydrogels --- controlled drug delivery --- protein crystallization --- lysozyme
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The book is intended to collect the recent contributions (either research or review papers) to the development of the “Materials Chemistry” research fields by the Editorial Board Members of the Materials Chemistry Section of Molecules. The aim is to present the recent progress in the fields and to highlight the key role of Materials Chemistry in a multidisciplinary research context.
hypergolic reactions --- sodium peroxide --- carbon nanosheets --- fullerols --- useful energy --- gold nanoparticles --- photothermal effect --- nanoink --- inkjet printing --- secure writing --- anti-counterfeit --- crosslinking polymerization (curing) --- decomposition --- degradation --- liquid and solid state --- phase transitions --- thermal analysis --- colloidal heterostructures --- seed mediated growth --- heterogeneous nucleation --- PbS/TiO2 heterostructure --- TiO2 nanocrystal defects --- antiferromagnet --- double perovskite --- high-κ dielectric --- nickel --- tellurium --- tungsten --- central nervous system (CNS) --- blood–brain barrier (BBB) --- self-assembled polymeric nanoparticles --- intranasal delivery --- biodistribution --- dendrimers --- microwaves --- hexaazatrinaphthylenes --- graphene nanoplatelets --- honeycomb structures --- modified couple stress theory --- quasi-3d hyperbolic shear deformation theory --- sandwich structures --- vibration analysis --- polymer-derived ceramics --- nanocomposites --- TiN --- TiC --- Si3N4 --- SiC --- structural properties --- cross-coupling reactions --- microwave irradiation --- ultrasounds --- mechanochemistry --- solvent-free --- water --- ionic liquids --- deep eutectic solvents --- sustainability --- nanomaterials --- electrochemical sensors --- hydroxycinnamic acids --- caffeine --- nitrite --- lead halide perovskites --- sensors --- photoluminescence --- amplified spontaneous emission --- thin films --- hybrid hydrogels --- controlled drug delivery --- protein crystallization --- lysozyme
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
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The book is intended to collect the recent contributions (either research or review papers) to the development of the “Materials Chemistry” research fields by the Editorial Board Members of the Materials Chemistry Section of Molecules. The aim is to present the recent progress in the fields and to highlight the key role of Materials Chemistry in a multidisciplinary research context.
Technology: general issues --- hypergolic reactions --- sodium peroxide --- carbon nanosheets --- fullerols --- useful energy --- gold nanoparticles --- photothermal effect --- nanoink --- inkjet printing --- secure writing --- anti-counterfeit --- crosslinking polymerization (curing) --- decomposition --- degradation --- liquid and solid state --- phase transitions --- thermal analysis --- colloidal heterostructures --- seed mediated growth --- heterogeneous nucleation --- PbS/TiO2 heterostructure --- TiO2 nanocrystal defects --- antiferromagnet --- double perovskite --- high-κ dielectric --- nickel --- tellurium --- tungsten --- central nervous system (CNS) --- blood–brain barrier (BBB) --- self-assembled polymeric nanoparticles --- intranasal delivery --- biodistribution --- dendrimers --- microwaves --- hexaazatrinaphthylenes --- graphene nanoplatelets --- honeycomb structures --- modified couple stress theory --- quasi-3d hyperbolic shear deformation theory --- sandwich structures --- vibration analysis --- polymer-derived ceramics --- nanocomposites --- TiN --- TiC --- Si3N4 --- SiC --- structural properties --- cross-coupling reactions --- microwave irradiation --- ultrasounds --- mechanochemistry --- solvent-free --- water --- ionic liquids --- deep eutectic solvents --- sustainability --- nanomaterials --- electrochemical sensors --- hydroxycinnamic acids --- caffeine --- nitrite --- lead halide perovskites --- sensors --- photoluminescence --- amplified spontaneous emission --- thin films --- hybrid hydrogels --- controlled drug delivery --- protein crystallization --- lysozyme --- hypergolic reactions --- sodium peroxide --- carbon nanosheets --- fullerols --- useful energy --- gold nanoparticles --- photothermal effect --- nanoink --- inkjet printing --- secure writing --- anti-counterfeit --- crosslinking polymerization (curing) --- decomposition --- degradation --- liquid and solid state --- phase transitions --- thermal analysis --- colloidal heterostructures --- seed mediated growth --- heterogeneous nucleation --- PbS/TiO2 heterostructure --- TiO2 nanocrystal defects --- antiferromagnet --- double perovskite --- high-κ dielectric --- nickel --- tellurium --- tungsten --- central nervous system (CNS) --- blood–brain barrier (BBB) --- self-assembled polymeric nanoparticles --- intranasal delivery --- biodistribution --- dendrimers --- microwaves --- hexaazatrinaphthylenes --- graphene nanoplatelets --- honeycomb structures --- modified couple stress theory --- quasi-3d hyperbolic shear deformation theory --- sandwich structures --- vibration analysis --- polymer-derived ceramics --- nanocomposites --- TiN --- TiC --- Si3N4 --- SiC --- structural properties --- cross-coupling reactions --- microwave irradiation --- ultrasounds --- mechanochemistry --- solvent-free --- water --- ionic liquids --- deep eutectic solvents --- sustainability --- nanomaterials --- electrochemical sensors --- hydroxycinnamic acids --- caffeine --- nitrite --- lead halide perovskites --- sensors --- photoluminescence --- amplified spontaneous emission --- thin films --- hybrid hydrogels --- controlled drug delivery --- protein crystallization --- lysozyme
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