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Publication DateJournal of Alloys and Compounds, ISSN 0925-8388, 09/2015, Volume 644, pp. 975 - 981
Phase formations during Si and B co-deposition by a halide activated pack cementation on Nb–Si–B alloys and the oxidation behaviors of the alloys were...
Pack cementation | Nb alloys | Coatings | Diffusion pathway | Oxidation-reduction reaction | Analysis | Methods | Alloys | Powders | Silicides | Pathways | Niobium base alloys | Silicon | Oxidation | Coating | Diffusion
Pack cementation | Nb alloys | Coatings | Diffusion pathway | Oxidation-reduction reaction | Analysis | Methods | Alloys | Powders | Silicides | Pathways | Niobium base alloys | Silicon | Oxidation | Coating | Diffusion
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Loading RightsActa Materialia, ISSN 1359-6454, 07/2015, Volume 93, pp. 95 - 104
We investigated the microstructural and magnetic property changes of Nd–Fe–B sintered magnets with the application of simultaneous processing via powder doping...
Grain boundary diffusion depth of Dy | Core–shell microstructure | Powder doping process | Grain boundary diffusion process | Nd–Fe–B sintered magnet | Nd-Fe-B sintered magnet | Core-shell microstructure | MICROSTRUCTURAL CHARACTERISTICS | DY2O3 | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | Core shell microstructure | COERCIVITY | Grain boundaries | Powders | Coatings | Sintering | Magnetic properties | Usage | Surface energy | Reduction | Grain boundary diffusion | Doping | Ferrous alloys | Magnetic materials | Dip coatings | Dysprosium | Magnets
Grain boundary diffusion depth of Dy | Core–shell microstructure | Powder doping process | Grain boundary diffusion process | Nd–Fe–B sintered magnet | Nd-Fe-B sintered magnet | Core-shell microstructure | MICROSTRUCTURAL CHARACTERISTICS | DY2O3 | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | Core shell microstructure | COERCIVITY | Grain boundaries | Powders | Coatings | Sintering | Magnetic properties | Usage | Surface energy | Reduction | Grain boundary diffusion | Doping | Ferrous alloys | Magnetic materials | Dip coatings | Dysprosium | Magnets
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Loading Rights1996, ISBN 0412544407, xi, 341
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Applied Surface Science, ISSN 0169-4332, 01/2015, Volume 324, pp. 1 - 12
A microcrystalline β-NiAl coating was prepared on a single-crystal (SC) superalloy substrate via magnetron sputtering and subsequent vacuum annealing. The...
Microcrystalline | Magnetron sputtering | Scale adherence | β-NiAl | Inter-diffusion | High temperature oxidation
Microcrystalline | Magnetron sputtering | Scale adherence | β-NiAl | Inter-diffusion | High temperature oxidation
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Loading RightsACS Nano, ISSN 1936-0851, 11/2011, Volume 5, Issue 11, pp. 9187 - 9193
Rechargeable lithium–sulfur (Li–S) batteries hold great potential for next-generation high-performance energy storage systems because of their high theoretical...
SYSTEM | CAPACITY | ION BATTERIES | CARBON | CONVERSION | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CATHODE MATERIALS | NANORODS | ANODES | CHEMISTRY, MULTIDISCIPLINARY | STORAGE DEVICES | ENERGY-STORAGE | Performance enhancement | Polysulfides | Coating | Sulfur | Diffusion | Carbon | Discharge | Rechargeable batteries | Lithium sulfur batteries
SYSTEM | CAPACITY | ION BATTERIES | CARBON | CONVERSION | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CATHODE MATERIALS | NANORODS | ANODES | CHEMISTRY, MULTIDISCIPLINARY | STORAGE DEVICES | ENERGY-STORAGE | Performance enhancement | Polysulfides | Coating | Sulfur | Diffusion | Carbon | Discharge | Rechargeable batteries | Lithium sulfur batteries
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Loading RightsApplied Surface Science, ISSN 0169-4332, 03/2015, Volume 332, pp. 362 - 367
Conventional and nanostructured ZrO -8 wt.%Y O coatings were performed on Ti-48Al-2Cr-2Nb (at.%) alloy by atmospheric plasma spray. The oxidation behavior of...
Intermetallics | Coating | Plasma spraying | High temperature oxidation | ISOTHERMAL OXIDATION | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | BEHAVIOR | ALUMINIDES | CHEMISTRY, PHYSICAL | AIR | MECHANICAL-PROPERTIES | THERMAL BARRIER COATINGS | ALLOYS | CONDUCTIVITY | MICROSTRUCTURE | MATERIALS SCIENCE, COATINGS & FILMS
Intermetallics | Coating | Plasma spraying | High temperature oxidation | ISOTHERMAL OXIDATION | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | BEHAVIOR | ALUMINIDES | CHEMISTRY, PHYSICAL | AIR | MECHANICAL-PROPERTIES | THERMAL BARRIER COATINGS | ALLOYS | CONDUCTIVITY | MICROSTRUCTURE | MATERIALS SCIENCE, COATINGS & FILMS
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Loading RightsIEEE Transactions on Plasma Science, ISSN 0093-3813, 06/2015, Volume 43, Issue 6, pp. 1901 - 1905
This paper reports an experimental study of the previously proposed mechanism of adhesion of a plasma metal coating to a ceramic substrate by an example of...
Annealing | Adhesives | mechanism and kinetics of the formation of adhesion | Diffusion of vacancies | plasma metal coating | Ceramics | power layer | Coatings | high-power microwave devices | Plasma temperature | Substrates | PHYSICS, FLUIDS & PLASMAS
Annealing | Adhesives | mechanism and kinetics of the formation of adhesion | Diffusion of vacancies | plasma metal coating | Ceramics | power layer | Coatings | high-power microwave devices | Plasma temperature | Substrates | PHYSICS, FLUIDS & PLASMAS
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Loading RightsElectrochimica Acta, ISSN 0013-4686, 12/2013, Volume 112, pp. 111 - 119
To further our understanding of the plasma electrolytic oxidation (PEO) process, and to aid in the optimization of the process, it is important to identify the...
Optical emission spectroscopy | AJ62 Mg alloy | Coating growth mechanisms | Oxygen diffusion | Plasma electrolytic oxidation (PEO) | ELECTROCHEMISTRY | MICROARC OXIDATION | MAGNESIUM ALLOYS | BEHAVIOR | ALUMINUM | CORROSION-RESISTANCE | REGULARITY | SILICATE | Electrolysis | Alloys | Magnesium | Ceramics | Coatings | Ceramic materials | Investigations | Anions | Magnesium base alloys | Ceramic coatings | Electric discharges | Diffusion coating | Cations | Oxidation | Coating
Optical emission spectroscopy | AJ62 Mg alloy | Coating growth mechanisms | Oxygen diffusion | Plasma electrolytic oxidation (PEO) | ELECTROCHEMISTRY | MICROARC OXIDATION | MAGNESIUM ALLOYS | BEHAVIOR | ALUMINUM | CORROSION-RESISTANCE | REGULARITY | SILICATE | Electrolysis | Alloys | Magnesium | Ceramics | Coatings | Ceramic materials | Investigations | Anions | Magnesium base alloys | Ceramic coatings | Electric discharges | Diffusion coating | Cations | Oxidation | Coating
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Loading RightsProgress in Organic Coatings, ISSN 0300-9440, 12/2017, Volume 113, pp. 200 - 206
The coatings of initially homogeneous poly(styrene) − poly(methyl methacrylate) − tetrahydrofuran system have been studied. The average concentrations of the...
Thin films | Residual solvent | Multi polymer coatings | Diffusion in polymeric coatings | Drying | GLASS-TRANSITION TEMPERATURE | MOLECULAR-WEIGHT | MODEL VALIDATION | DILUENT SYSTEMS | CONFOCAL RAMAN-SPECTROSCOPY | CONCENTRATION PROFILES | THERMODYNAMICS | CHEMISTRY, APPLIED | MULTICOMPONENT DIFFUSION | FREE-VOLUME THEORY | FREE-ENERGY | MATERIALS SCIENCE, COATINGS & FILMS
Thin films | Residual solvent | Multi polymer coatings | Diffusion in polymeric coatings | Drying | GLASS-TRANSITION TEMPERATURE | MOLECULAR-WEIGHT | MODEL VALIDATION | DILUENT SYSTEMS | CONFOCAL RAMAN-SPECTROSCOPY | CONCENTRATION PROFILES | THERMODYNAMICS | CHEMISTRY, APPLIED | MULTICOMPONENT DIFFUSION | FREE-VOLUME THEORY | FREE-ENERGY | MATERIALS SCIENCE, COATINGS & FILMS
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Loading RightsJournal of Adhesion Science and Technology, ISSN 0169-4243, 07/2015, Volume 29, Issue 14, pp. 1415 - 1445
A mathematical model for failure prediction and reliability assessment of coating-substrate system is developed based on a multidisciplinary approach. Two...
delamination | reliability assessment | diffusion | blister | simulation | coating debondment | mathematical model | bi-layer cantilever | finite difference method | failure prediction | MATERIALS SCIENCE, MULTIDISCIPLINARY | SILICON | PARAMETERS | DEFORMATION | ENGINEERING, CHEMICAL | MECHANICS | RESIDUAL-STRESSES | THERMODYNAMIC THEORY | MICROSTRUCTURE | Adhesion | Mathematical models | Finite element analysis | Solid mechanics | Debonding | Mathematical analysis | Reliability analysis | Coating | Interface roughness | Failure
delamination | reliability assessment | diffusion | blister | simulation | coating debondment | mathematical model | bi-layer cantilever | finite difference method | failure prediction | MATERIALS SCIENCE, MULTIDISCIPLINARY | SILICON | PARAMETERS | DEFORMATION | ENGINEERING, CHEMICAL | MECHANICS | RESIDUAL-STRESSES | THERMODYNAMIC THEORY | MICROSTRUCTURE | Adhesion | Mathematical models | Finite element analysis | Solid mechanics | Debonding | Mathematical analysis | Reliability analysis | Coating | Interface roughness | Failure
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Loading RightsAdvanced Functional Materials, ISSN 1616-301X, 09/2014, Volume 24, Issue 33, pp. 5299 - 5306
Sulfur is appealing as a high‐capacity cathode for rechargeable lithium batteries as it offers a high theoretical capacity of 1672 mA h g−1 and is abundant....
polysulfide diffusion | lithium‐sulfur batteries | separator | self‐discharge | electrochemical performance | lithium-sulfur batteries | self-discharge | CATHODE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | FUNDAMENTAL CHEMISTRY | BINDER | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | SELF-DISCHARGE | CELL | CHEMISTRY, MULTIDISCIPLINARY | Electrochemistry | Sulfur compounds | Batteries | Sulfur | Coatings | Rest | Stability | Dynamics | Separators | Discharge | Cathodes | Lithium sulfur batteries
polysulfide diffusion | lithium‐sulfur batteries | separator | self‐discharge | electrochemical performance | lithium-sulfur batteries | self-discharge | CATHODE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | FUNDAMENTAL CHEMISTRY | BINDER | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | SELF-DISCHARGE | CELL | CHEMISTRY, MULTIDISCIPLINARY | Electrochemistry | Sulfur compounds | Batteries | Sulfur | Coatings | Rest | Stability | Dynamics | Separators | Discharge | Cathodes | Lithium sulfur batteries
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Loading RightsAdvanced Materials, ISSN 0935-9648, 11/2014, Volume 26, Issue 43, pp. 7352 - 7357
A composite separator with a thin‐film polysulfide trap is developed for lithium‐sulfur batteries. A polyethylene glycol‐supported microporous carbon coating...
long cycle life | lithium–sulfur batteries | microporous carbon | cell configuration | polysulfide traps | Cell configuration | Lithium-sulfur batteries | Long cycle life | Polysulfide traps | Microporous carbon | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | SEPARATOR | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | LI-S BATTERIES | GRAPHENE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | MOLECULES | CYCLING STABILITY | NANOTUBES | HIGH-CAPACITY | EFFICIENCY | Sulfur compounds | Batteries | Sulfur | Coatings | Polyethylene glycol | Polyethylenes | Polysulfides | Coating | Separators | Carbon | Cathodes | Lithium sulfur batteries
long cycle life | lithium–sulfur batteries | microporous carbon | cell configuration | polysulfide traps | Cell configuration | Lithium-sulfur batteries | Long cycle life | Polysulfide traps | Microporous carbon | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | SEPARATOR | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | LI-S BATTERIES | GRAPHENE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | MOLECULES | CYCLING STABILITY | NANOTUBES | HIGH-CAPACITY | EFFICIENCY | Sulfur compounds | Batteries | Sulfur | Coatings | Polyethylene glycol | Polyethylenes | Polysulfides | Coating | Separators | Carbon | Cathodes | Lithium sulfur batteries
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Loading RightsJournal of Power Sources, ISSN 0378-7753, 12/2013, Volume 243, pp. 993 - 1000
A graphene coating mesoporous carbon/sulfur (RGO@CMK-3/S) composite, which is characteristic of a hybrid structure by incorporating the merits of CMK-3 matrix...
Hybrid nanostructure | Lithium–sulfur batteries | Mesoporous carbon | Graphene coating | Sulfur composite | ELECTROCHEMISTRY | CELLS | ELECTROLYTE | CARBON | OXIDE | ENERGY & FUELS | LI-S BATTERIES | CATHODE MATERIAL | COMPOSITE CATHODES | Lithium-sulfur batteries | HIGH-CAPACITY | ELECTROCHEMICAL PERFORMANCE | Sulfur compounds | Batteries | Sulfur | Coatings | Graphene | Electric properties
Hybrid nanostructure | Lithium–sulfur batteries | Mesoporous carbon | Graphene coating | Sulfur composite | ELECTROCHEMISTRY | CELLS | ELECTROLYTE | CARBON | OXIDE | ENERGY & FUELS | LI-S BATTERIES | CATHODE MATERIAL | COMPOSITE CATHODES | Lithium-sulfur batteries | HIGH-CAPACITY | ELECTROCHEMICAL PERFORMANCE | Sulfur compounds | Batteries | Sulfur | Coatings | Graphene | Electric properties
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Loading RightsActa Materialia, ISSN 1359-6454, 01/2015, Volume 83, pp. 408 - 418
Thermal stability, a characteristic that describes the ability of a material to maintain its structure and properties in a wide temperature range, is a...
Nanocomposite structure | Magnetron sputtering | TiAlSiCN coatings | Thermal stability | Coatings | Coatings industry | Aluminum compounds | Annealing | X-ray spectroscopy | Hardness | Raman spectroscopy
Nanocomposite structure | Magnetron sputtering | TiAlSiCN coatings | Thermal stability | Coatings | Coatings industry | Aluminum compounds | Annealing | X-ray spectroscopy | Hardness | Raman spectroscopy
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Loading RightsJournal of Alloys and Compounds, ISSN 0925-8388, 08/2015, Volume 639, pp. 488 - 495
Protective corrosion resistant coatings serve for decreasing the amount of ionic contaminants from Havar® entrance foils of the targets for [ F] production....
Thin films | Diffusion barrier | X-ray diffraction | Metallic glasses | Magnetron sputtering | Microstructure | THIN-FILMS | DEPOSITION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | TANTALUM FILMS | GLASS-FORMATION | ALLOYS | METASTABLE STRUCTURES | NIOBIUM FILMS | POSITIVE HEAT | Zirconium | Particle accelerators | Coatings | Corrosion and anti-corrosives | Alloys | Zirconium alloys | Crystals | Radiolysis | Dielectric films | Structure | Nuclear physics | Tantalum | Niobium base alloys | Diffusion barriers | Diffusion | Protective coatings | Niobium
Thin films | Diffusion barrier | X-ray diffraction | Metallic glasses | Magnetron sputtering | Microstructure | THIN-FILMS | DEPOSITION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | TANTALUM FILMS | GLASS-FORMATION | ALLOYS | METASTABLE STRUCTURES | NIOBIUM FILMS | POSITIVE HEAT | Zirconium | Particle accelerators | Coatings | Corrosion and anti-corrosives | Alloys | Zirconium alloys | Crystals | Radiolysis | Dielectric films | Structure | Nuclear physics | Tantalum | Niobium base alloys | Diffusion barriers | Diffusion | Protective coatings | Niobium
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Loading RightsBiomaterials, ISSN 0142-9612, 2004, Volume 25, Issue 7, pp. 1279 - 1287
Hydroxyapatite (HA) porous scaffold was coated with HA and polycaprolactone (PCL) composites, and antibiotic drug tetracycline hydrochloride was entrapped...
Drug release | Porous bone scaffold | Mechanical properties | Poly( ε-caprolactone) (PCL) | Hydroxyapatite (HA) | Composite coating | Poly(ε-caprolactone) (PCL) | SYSTEM | MATERIALS SCIENCE, BIOMATERIALS | poly(epsilon-caprolactone) (PCL) | MICROSPHERES | ENGINEERING, BIOMEDICAL | GRAFT SUBSTITUTE | RELEASE | mechanical properties | composite coating | porous bone scaffold | hydroxyapatite (HA) | DEGRADATION | drug release | POLY(EPSILON-CAPROLACTONE) | Coated Materials, Biocompatible - chemical synthesis | Tetracycline - chemistry | Body Fluids - chemistry | Coated Materials, Biocompatible - chemistry | Elasticity | Drug Implants - administration & dosage | Durapatite - chemistry | Materials Testing | Manufactured Materials | Absorbable Implants | Compressive Strength | Polyesters - chemistry | Anti-Bacterial Agents - chemistry | Bone Substitutes - chemical synthesis | Porosity | Diffusion | Anti-Bacterial Agents - administration & dosage | Drug Delivery Systems - methods | Tetracycline - administration & dosage | Bone Substitutes - chemistry
Drug release | Porous bone scaffold | Mechanical properties | Poly( ε-caprolactone) (PCL) | Hydroxyapatite (HA) | Composite coating | Poly(ε-caprolactone) (PCL) | SYSTEM | MATERIALS SCIENCE, BIOMATERIALS | poly(epsilon-caprolactone) (PCL) | MICROSPHERES | ENGINEERING, BIOMEDICAL | GRAFT SUBSTITUTE | RELEASE | mechanical properties | composite coating | porous bone scaffold | hydroxyapatite (HA) | DEGRADATION | drug release | POLY(EPSILON-CAPROLACTONE) | Coated Materials, Biocompatible - chemical synthesis | Tetracycline - chemistry | Body Fluids - chemistry | Coated Materials, Biocompatible - chemistry | Elasticity | Drug Implants - administration & dosage | Durapatite - chemistry | Materials Testing | Manufactured Materials | Absorbable Implants | Compressive Strength | Polyesters - chemistry | Anti-Bacterial Agents - chemistry | Bone Substitutes - chemical synthesis | Porosity | Diffusion | Anti-Bacterial Agents - administration & dosage | Drug Delivery Systems - methods | Tetracycline - administration & dosage | Bone Substitutes - chemistry
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