5 Werkstofftechnik
Filtern
Dokumenttyp
Sprache
- Englisch (330)
- Mehrsprachig (5)
- Deutsch (1)
- Russisch (1)
Referierte Publikation
- ja (337) (entfernen)
Schlagworte
- Additive manufacturing (18)
- EBSD (16)
- Additive Manufacturing (13)
- Microstructure (13)
- Residual stress (12)
- Transmission electron microscopy (12)
- Corrosion (11)
- Creep (11)
- Glass (9)
- Crystallization (7)
- Fatigue (7)
- Sintering (7)
- Steel (7)
- Aging (6)
- Carbon steel (6)
- High entropy alloy (6)
- High temperature corrosion (6)
- Mechanical properties (6)
- SEM (6)
- 3D printing (5)
- Degradation (5)
- Electron microscopy (5)
- High entropy alloys (5)
- Metallic glasses (5)
- Neutron diffraction (5)
- Oxidation (5)
- Alumina (4)
- Bioactive glass (4)
- CALPHAD (4)
- Ceramics (4)
- EXAFS (4)
- Electron backscatter diffraction (4)
- HIP (4)
- Impurities (4)
- Kikuchi patterns (4)
- Laser powder bed fusion (4)
- Lattice parameters (4)
- Martensite (4)
- Metallic glass (4)
- Nanoindentation (4)
- Plastic deformation (4)
- Plasticity (4)
- Scanning electron microscopy (4)
- Vickers indentation (4)
- 3D-Printing (3)
- AISI 304L (3)
- AISI 316L (3)
- CCS (3)
- Calcination (3)
- Carbon fibres (3)
- Dislocation (3)
- Finite element analysis (3)
- Fracture (3)
- Fracture toughness (3)
- General Materials Science (3)
- Glass transition (3)
- Grain boundary (3)
- Hydrogen (3)
- Interfacial strength (3)
- Iron (3)
- Molecular dynamics (3)
- NMR spectroscopy (3)
- Nickel-based superalloys (3)
- Ontology (3)
- Pattern matching (3)
- Phase-field simulation (3)
- Raman spectroscopy (3)
- Reproducibility (3)
- Single crystal (3)
- Stress intensity factor (3)
- Superalloy (3)
- TEM (3)
- Thermal expansion (3)
- Ti-6Al-4V (3)
- ToF-SIMS (3)
- X-ray diffraction (3)
- X-ray refraction (3)
- Zirconia (3)
- AGIL (2)
- Alloy design (2)
- Aluminum alloys (2)
- Atom probe tomography (2)
- Bacteria (2)
- Binder jetting (2)
- Bioactivity (2)
- Bioceramics (2)
- Bone regeneration (2)
- CCUS (2)
- Calcium cobaltite (2)
- Ceramic (2)
- Characterization (2)
- Compositionally complex alloys (2)
- Computed Tomography (2)
- Computed tomography (2)
- Condensate (2)
- Crack growth (2)
- Crack healing (2)
- Crack propagation (2)
- Crop protection products (2)
- Crystal orientation (2)
- Crystal plasticity (2)
- Damage (2)
- Deep Learning (2)
- Defects (2)
- Density-based Phase-Field Modelling (2)
- Densty-based Thermodynamics (2)
- Deuterium (2)
- Diffusion (2)
- Diopsid (2)
- Elastic constants (2)
- Environmental stress cracking (2)
- Environmental stress cracking (ESC) (2)
- Foaming (2)
- Fractography (2)
- Fracture mechanics (2)
- Full notch creep test (FNCT) (2)
- GFRP (2)
- Geothermal (2)
- Glass ceramic (2)
- Glass-ceramic (2)
- Gold (2)
- Grain boundaries (2)
- High-density polyethylene (2)
- High-entropy alloy (2)
- IN718 (2)
- Inconel 718 (2)
- Infrared spectroscopy (2)
- Internal friction (2)
- Interphase (2)
- Kikuchi diffraction (2)
- Kikuchi pattern (2)
- LPBF (2)
- LTCC (2)
- Laser Powder Bed Fusion (2)
- Laser scanning microscopy (LSM) (2)
- Lattice distortion (2)
- Layerwise slurry deposition (2)
- Low cycle fatigue (2)
- Lunar regolith (2)
- Machine Learning (2)
- Mars (2)
- Martensitic transformation (2)
- Mechanical Engineering (2)
- Mechanics of Materials (2)
- Microhardness (2)
- Microstrucrue Design (2)
- Microstructural characterization (2)
- Microstructure and texture (2)
- Microstructure evolution (2)
- Modeling (2)
- Nanomaterials (2)
- Nanoparticles (2)
- Native oxide (2)
- Nickel alloys (2)
- Nickel-base superalloys (2)
- Orientation precision (2)
- Ostwald ripening (2)
- Oxyfuel (2)
- P92 (2)
- Permeability (2)
- Phase transformations (2)
- Phase-field (2)
- Polyethylene (2)
- Polymer (2)
- Preceramic polymer (2)
- Precipitation (2)
- Pressure-assisted sintering (2)
- Quasicrystal (2)
- Rapid solidification (2)
- Reaction-sintering (2)
- Relaxation (2)
- S-Phase (2)
- SIMS (2)
- Sample preparation (2)
- Selective laser melting (2)
- Self-healing (2)
- Shape-memory alloys (2)
- Shear bands (2)
- Short-range order (2)
- Silicon carbide (2)
- Silicon nanowires (2)
- Single-crystals (2)
- Sorption (2)
- Spray drying (2)
- Stress corrosion cracking (2)
- Stress relaxation (2)
- Sulfidation (2)
- Sulphidation (2)
- Superalloys (2)
- Superconducting magnet (2)
- Surface treatments (2)
- Tempered martensite-ferritic steel (2)
- Tensile properties (2)
- Texture (2)
- Thermodynamics (2)
- Thermoelectric properties (2)
- Thermography (2)
- Transmission electron microscopy (TEM) (2)
- Water content (2)
- Water speciation (2)
- Wetting (2)
- X-ray absorption spectroscopy (2)
- 12%Cr steel (1)
- 316L (1)
- 3D etching (1)
- 3D metallography (1)
- 3D-Metallographie (1)
- 3D-finite element modeling (1)
- 3D-printing (1)
- 4-Dimensional scanning transmission (1)
- 9-12%Cr steel (1)
- Abrasion (1)
- Accelerated temporal integration (1)
- Advanced high strength steels (1)
- Ageing (1)
- Aggressive environments (1)
- Al alloys (1)
- Al-Cu alloy (1)
- Al-Cu binary alloy system (1)
- Al-Cu-Li-alloy (1)
- Al2O3 (1)
- Alcium alkali phosphate (1)
- Alkali aluminosilicate glasses (1)
- Alkali and alkaline earth silicate and borate glass (1)
- Alloy (1)
- Alloy Safety (1)
- Alloy microstructure (1)
- Alloys (1)
- Alloys' Safety (1)
- Alumina coatings (1)
- Aluminium alloys (1)
- Aluminosilicate glasses (1)
- Aluminum alloy (1)
- Amorphization (1)
- Analytical scanning electron microscopy (1)
- Angle measurement (1)
- Approximant (1)
- Aquifer fluid (1)
- Artificial weathering (1)
- Atomistic Simulation (1)
- Atomistic simulations (1)
- Austenite-to-martensite phase transformation (1)
- Austenitic alloys (1)
- Austenitic stainless steel (1)
- Austenitic steel 316L (1)
- Automated Bragg angle determination (1)
- Automated analysis (1)
- Automated image analysis (1)
- BTEX (1)
- Bacterial attachment (1)
- Batch reactions (1)
- Behmite (1)
- Biaxial strength (1)
- Bimodal distribution (1)
- Binder Jetting (1)
- Binders/binding (1)
- Bio Ceramic (1)
- Bio Ceramics (1)
- Bio active ceramic (1)
- Bioactive Glass (1)
- Bioactive bone grafting material (1)
- Bioactive glass scaffold (1)
- Biodiesel (1)
- Biogeochemical cycling (1)
- Biogeochemistry (1)
- Biomineralisation (1)
- Biopolymer (1)
- Biphasic calcium phosphate (1)
- Bitter technique (1)
- Bone marrow-derived mesenchymal stem cell (1)
- Borate (1)
- Borosilicate glass (1)
- Bragg angles (1)
- Brass (1)
- Bravais lattice (1)
- Bravais lattices (1)
- Brinell hardness (1)
- Brittle fracture (1)
- Bruchflächen (1)
- Bubble formation (1)
- Bulk metallic glasses (1)
- Burst (1)
- C. lap-shear (1)
- CALPHAD database analysis (1)
- CCUS, supercritical/dense phase CO2, carbon steels, martensitic steel, superaustenite steel, droplet corrosion (1)
- CFRP (1)
- CO2 (1)
- CO2 corrosion (1)
- CO2 pipeline transport (1)
- CO2 quality (1)
- CO2 separation membranes (1)
- Calcium Cobaltite (1)
- Calcium alkali orthophosphate materials (1)
- Calculated intrinsic fracture toughness (1)
- Carbide phase NbC (1)
- Carbon Fiber Reinforced Plastics (1)
- Carbon Fibre (1)
- Carbon capture (1)
- Carbon capture and storage (1)
- Carbon capture storage (1)
- Carbon capture, utilization and storage technology (1)
- Carbon dioxide (1)
- Carbon nanotubes (1)
- Casing (1)
- Cavitation (1)
- Cellular substructure (1)
- Cellulose (1)
- Cement (1)
- Cement-based materials (1)
- Cerium oxide (1)
- Chalcogenides (1)
- Characterisation (1)
- Chemically complex alloy (1)
- Chemo-mechanical coupling (1)
- Chemometrics (1)
- Chrystal orientation (1)
- Classification (1)
- Clay ISRU (1)
- Coating (1)
- Cobald based alloy (1)
- Coefficient of thermal expansion (1)
- Composite recycling (1)
- Compositionally complex alloy (1)
- Concrete (1)
- Condensed Matter Physics (1)
- Confined catalyst (1)
- Contact angle (1)
- Contact fatigue (1)
- Contact mechanics (1)
- Continnum damage model (1)
- Cooling rate (1)
- Coordinate measurement machine (1)
- Copper vacancies (1)
- Corrosion costs (1)
- Corrosion fatigue (1)
- Corrosion pits (1)
- Corrosion protection (1)
- Corrosion resistance (1)
- Coulomb explosion (1)
- CrCoNi (1)
- CrMnFeCoNi (1)
- CrN/NbN (1)
- Crack arrest (1)
- Crack evolution (1)
- Crack growth in air (1)
- Crack initiation (1)
- Crack opening displacement (1)
- Crack tip opening displacement (1)
- Cracks (1)
- Craze–crack mechanism (1)
- Creation-relaxation algorithm (1)
- Creep behavior (1)
- Creep mechanisms (1)
- Creep strength (1)
- Creep under thermal cycling (1)
- Creep-fatigue (1)
- Creep-fatigue interaction (1)
- Cross-sectioning (1)
- Crosslinking (1)
- Cryogenic (1)
- Cryogenic cycling (1)
- Crystal Texture (1)
- Crystal growth (1)
- Crystal growth velocity (1)
- Crystal lattice period (1)
- Crystal morphology (1)
- Crystalline defects (1)
- Crystallographic texture (1)
- Cupriavidus metallidurans (1)
- Cuttlefish (1)
- Cyclic softening (1)
- Cyclic steam oxidation (1)
- D. aging (1)
- D. creep D. viscoelasticity (1)
- DCB (1)
- DCB geometry (1)
- Data Interoperability (1)
- Data analysis (1)
- Data infrastructures (1)
- Data mapping (1)
- Data processing (1)
- Datenbank (1)
- Debonding (1)
- Defects engineering (1)
- Deformation (1)
- Deformation mechanisms (1)
- Degradation signatures (1)
- Density-based Thermodynamics (1)
- Density-based model (1)
- Dental (1)
- Deposition microstructure (1)
- Desorption (1)
- Destabilization (1)
- Dielectric breakdown (1)
- Dielectric properties (1)
- Diesel (1)
- Diesel Fuel (1)
- Differential scanning calorimetry (1)
- Differential scanning calorimetry (DSC) (1)
- Diffraction (1)
- Diffraction Enhanced Imaging (1)
- Diffraction contrast (1)
- Digital image correlation (1)
- Digital representations (1)
- Digital workflows (1)
- Digitalization (1)
- Dimensional mismatch of crystalline lattice periods (misfit) (1)
- Directional grain growth (1)
- Dislocation avalanches (1)
- Disorientation (1)
- Distributed fiber optic sensing (1)
- Domain Ontology Development (1)
- Double notched creep specimen (1)
- Dry preparation (1)
- Drywood termite (1)
- Ductile iron (1)
- Dwell periods (1)
- Dwell times (1)
- Dynamic recrystallization (1)
- EFTEM (1)
- EN AW-2618A (1)
- Early oxidation (1)
- Early stages (1)
- Early sulfidation (1)
- Efficiency (1)
- Elastic energy (1)
- Elastic microstructure (1)
- Elastic modulus (1)
- Elastic properties (1)
- Elasticity (1)
- Electric conductivity (1)
- Electrical insulators (1)
- Electrical resistance (1)
- Electrochemical characterisation (1)
- Electrochemical impedance spectroscopy (1)
- Electron back-scattered diffraction (1)
- Electron backscattered diffraction (1)
- Electron diffraction (1)
- Electron energy (1)
- Electron microscopy, transmission (1)
- Electronic (1)
- End of life (1)
- Endothelial progenitor cell (1)
- Energy distribution (1)
- Environment (1)
- Environmental Stress Cracking (1)
- Environmentally assisted cracking (1)
- Epitaxial films (1)
- Epoxy Resin (1)
- Epoxy resin (1)
- Equilibrium relaxation (1)
- Eutectic (1)
- Expanding cavity model (1)
- Experimental and numerical techniques (1)
- Explosive welding (1)
- Exposed metal sites (1)
- FAIR (1)
- FAIR Data Management (1)
- FAIR research data management (1)
- FIB Tomography (1)
- FSDC (1)
- Fabrication (1)
- Faceting (1)
- Facilitated activation (1)
- Failure mechanisms (1)
- Failure rate (1)
- Fatigue Testing (1)
- Fatigue crack propagation stages (1)
- Fatigue performance (1)
- Fatigue striations (1)
- Fe-Mn steels (1)
- Femtosecond laser (1)
- Ferritic steels (1)
- Ferritic–martensitic steel (1)
- Ferrous phosphate hydrate (1)
- Fiber-matrix interface (1)
- Fiber/matrix bond (1)
- Fibre reinforced plastic (1)
- Fibre/matrix bond (1)
- Fibre/matrix bonding (1)
- Filters (1)
- Finite element method (1)
- Finland (1)
- First derivative (1)
- Flowability (1)
- Four-point bending test (1)
- Fourier series (1)
- Fracture surface analysis (1)
- Fracture surface energy (1)
- Fracture surfaces (1)
- Fraktographie (1)
- Freeze casting (1)
- Fresnoite (1)
- Friction (1)
- Friction Stir Welding (1)
- Friction stir processing (1)
- Frozen state photopolymerization (1)
- Fuel sorption (1)
- Full Notch Creep Test (1)
- Full notch creep test (1)
- Fullerite (1)
- Fungi (1)
- GD-OES (1)
- GMR (1)
- GMR sensors (1)
- Gefügeanalyse (1)
- Gefügerekonstruktion (1)
- General Computer Science (1)
- General Engineering (1)
- Glass Ceramic (1)
- Glass capillaries (1)
- Glass crystallization stress (1)
- Glass fiber reinforced polymers (1)
- Glass fiber-epoxy composites (1)
- Glass fibre (1)
- Glass forming (1)
- Glass forming melts (1)
- Glass manufacturing (1)
- Glass powder (1)
- Glass-ceramics (1)
- Glass-ceramics definition (1)
- Global stability criterion (1)
- Gnomonic projections (1)
- Grade S960QL steel (1)
- Gradient-enhanced fatigue model (1)
- Grain Boundary (1)
- Grain Boundary Corrosion (1)
- Grain Boundary Phase Diagram (1)
- Grain Boundary Segregation (1)
- Grain Boundary Spinodal (1)
- Grain boundary engineering (1)
- Grain boundary oxidation (1)
- Grain boundary phase diagram (1)
- Grain boundary precipitates (1)
- Grain boundary structure (1)
- Grain boundary thermodynamics (1)
- Grain growth (1)
- Grain structure (1)
- Granules (1)
- Graphite (1)
- Growth kinetics (1)
- Growth rate (1)
- Hausner ratio (1)
- Heat accumulation (1)
- Heat treatment (1)
- Heat-resistant nickel alloys (1)
- Hertzian cracks (1)
- Hierarchical microstructure (1)
- Hierarchical microstructure Premartensite (1)
- Hierarchical porosities (1)
- High - temperature (1)
- High Entropy Alloy (1)
- High Entropy Alloys (1)
- High alloyed steel (1)
- High density polyethylene (1)
- High interstitial austenitic steel (1)
- High pressure (1)
- High temperature nickel-based eutectic alloys (1)
- High temperature oxidation (1)
- High temperatures (1)
- High-Entropy Alloys (1)
- High-Entropy Materials (1)
- High-entropy alloys (1)
- High-temperature corrosion (1)
- High-temperature oxidation (1)
- High-temperature properties (1)
- High-voltage testing (1)
- High‐temperature corrosion (1)
- Hipims (1)
- Homogenization (1)
- Hot pressing (1)
- Hot stage microscopy (1)
- Hydrogel (1)
- Hydrogen diffusivity (1)
- Hydrogen storage (1)
- Hydrothermal Ageging (1)
- Hydrous glass (1)
- Hygrothermal (1)
- IASCC (1)
- IN 718 (1)
- ISRU (1)
- Impact damage (1)
- Impact wear (1)
- In situ diffraction (1)
- In situ tensile test (1)
- In situ thermal-annealing experiment (1)
- In-situ ED-XRD (1)
- In-situ Process Monitoring (1)
- In-situ SEM micro shear deformation (1)
- In-situ composites (1)
- In-situ process monitoring (1)
- In-vivo (1)
- Incipient plasticity (1)
- Inclusion cluster (1)
- Inclusion size (1)
- Inconel 625 (1)
- Inconel 686 (1)
- Incremental lifetime models (1)
- Indentation (1)
- Indentation fracture toughness (1)
- Industrial and Manufacturing Engineering (1)
- Infrared nano AFM (1)
- Inkjet (1)
- Inter layer time (1)
- Interdiffusion (1)
- Interfacial Strength (1)
- Interfacial anisotropy (1)
- Interfacial free energy (1)
- Interfacial shear strength (1)
- Interlaboratory comparability (1)
- Intermetallic (1)
- Intermittent microplasticity (1)
- Intermodulation AFM (1)
- Internal Sulfidation (1)
- Internal Surfaces (1)
- Internal oxidation (1)
- Intrinsic stress (1)
- Invar (1)
- Ion beam erosion Sectioning (1)
- Ionic porosity (1)
- Iron meteorite (1)
- Irradiation (1)
- Isostatic hot pressing (HIP) (1)
- JMAK model (1)
- Joints/joining (1)
- KCl (1)
- KI (1)
- Kernel average misorientation (1)
- Keywords: Poly(ether ether ketone) (1)
- Kikuchi bands (1)
- Knowledge Representation (1)
- Knowledge graphs (1)
- Knowledge representation (1)
- LIBS (1)
- LSD print (1)
- Laboratory X-ray diffraction (1)
- Laser (1)
- Laser Powder Bed Fusion (LPBF) (1)
- Laser ablation in liquid (1)
- Laser beam melting (1)
- Laser beam melting (LBM) (1)
- Laser cladding (1)
- Laser powder-based directed energy deposition (1)
- Lattice distortions (1)
- Lattice misfit (1)
- Lattice parameter determination (1)
- Lattice point density (1)
- Lattice rotation (1)
- Lattice structures (1)
- Laves phase (1)
- Layered manganese oxide (1)
- Layering misalignment (1)
- Li-ion battery (1)
- Light curing (1)
- Lindemann criterion (1)
- Linear elastic fracture mechanics (1)
- Linked open data (1)
- Liquid Metal Embrittlement (1)
- Liquid metal embrittlement (1)
- Liquid phase sintering (1)
- Liquid-metal embrittlement (1)
- Log-normal distribution (1)
- Long-term aging (1)
- Long-term calculation (1)
- Long-term storage (1)
- Low carbon steel (1)
- Low expansion (1)
- Low strain (1)
- Low-loading (1)
- MGS-1 regolith simulant (1)
- MOF-74 (1)
- MOUSE (1)
- Machine learning (1)
- Magmatic and hydrothermal processes (1)
- Magnetic domain distribution (1)
- Magnetic shape memory (1)
- Magnetic stray field (1)
- Magnetic stray fields (1)
- Magnetomechanical effect (1)
- Martensitic steels (1)
- Martensitic structure (1)
- Mass transport (1)
- Master curve (1)
- Material degradation (1)
- Material failure (1)
- Material modeling (1)
- Materials Modelling (1)
- Materials Testing (1)
- Materials informatics (1)
- Materials science (1)
- Materials science and engineering (1)
- Matrix residual stress (1)
- Mean atomic number (1)
- Mean-field modelling (1)
- Mechanical anisotropy (1)
- Mechanical behavior (1)
- Mechanical deformation (1)
- Medium Entropy Alloys (1)
- Medium entropy alloys (1)
- Melt pool boundary (1)
- Melting (1)
- Meta material (1)
- Metal Magnetic Memory (1)
- Metal additive manufacturing (1)
- Metal and alloys (1)
- Metal magnetic memory (1)
- Metallic materials (1)
- Methodology (1)
- Micro-shrinkages (1)
- Microplastic stress (1)
- Microplastics (1)
- Microstructur (1)
- Microstructural changes of a Fe Si alloy (1)
- Microstructural evolution (1)
- Microstructure Design (1)
- Microstructure analysis (1)
- Microstructure, γ/γ' misfit (1)
- Microstrucure reconstruction (1)
- Microwave technology (1)
- Milling (1)
- Mis-match (1)
- Misfitting precipitate (1)
- Misorientation (1)
- Mixed Ca-K-Na phosphates (1)
- Mixed conductors (1)
- Mixed-linkers (1)
- Mn-oxides (1)
- Mobility (1)
- Model (1)
- Moisture (1)
- Molten salt (1)
- Moon (1)
- Multiaxial deformation (1)
- Multilayer (1)
- Multilayer ceramic technology (1)
- Multilayers (1)
- Multiple cracks (1)
- NGS (1)
- Na and K rhenanites (1)
- Nano-composite (1)
- Nano-powder (1)
- Nano-scratch test (1)
- Nanocomposites (1)
- Nanocrystalline alloys (1)
- Nanocrystalline structure (1)
- Nanoelectromechanical systems (NEMS) (1)
- Nanoparticle structure (1)
- Nanopowder (1)
- Nanoribbons (1)
- Nanoscale multilayers (1)
- Nanostructure quantification (1)
- Natural (1)
- Natural silver wires (1)
- Nb3Sn (1)
- Near Infrared Spectroscopy (1)
- Neutron Diffraction (1)
- NiMaGa (1)
- NiTi (1)
- Nickel-base alloy (1)
- Niobium alloying (1)
- Nitride (1)
- Non-destructive Materials (1)
- Non-metallic inclusions (1)
- Non-serrated inhomogeneous flow (1)
- Notch (1)
- Nucleation (1)
- Number density (1)
- Online Process Monitoring (1)
- Ontologies (1)
- Optical and Magnetic Materials (1)
- Optical centrifugation (1)
- Optical criterion of brittleness (1)
- Ordered/disordered structures (1)
- Ordering (1)
- Orientation (1)
- Orientation refinement (1)
- Orientation relationship (1)
- Osteogenesis (1)
- Oxidation protection (1)
- Oxide (1)
- Oxide coatings (1)
- Oxygen evolution reaction (1)
- PBF-LB/M/316L (1)
- PE-HD Sorption (1)
- PLS-DA (1)
- PV modules (1)
- Packaging (1)
- Parabolic flight (1)
- Parametric modeling (1)
- Particle morphology (1)
- Particle size (1)
- Passive components and circuits (1)
- Permittivity reduction (1)
- Phase Diagram (1)
- Phase diagram (1)
- Phase field crystal (1)
- Phase field method (1)
- Phase field model (1)
- Phase separation (1)
- Phase stability (1)
- Phase transformation (1)
- Phase-Field Simulations (1)
- Phase-field model (1)
- Phase-field modelling (1)
- Phosphate (1)
- Photocleavable organosilanes (1)
- Photopolymer composites (1)
- Phototrophs (1)
- Photovoltaic modules (1)
- Physical aging (1)
- Pipeline (1)
- Pipeline network (1)
- Pitting (1)
- Pitting corrosion (1)
- Plasma imaging (1)
- Plasma nanocoatings (1)
- Plasma spray (1)
- Platinum-group-metals (1)
- Polymer analysis/characterization (1)
- Polymer composite (1)
- Polymer-matrix composites (PMC) (1)
- Polymeric Materials (1)
- Polymer–matrix composites (1)
- Polyolefins (1)
- Polypropylene (1)
- Polystyrene (1)
- Polyurethane (1)
- Porcelain (1)
- Pore (1)
- Pores (1)
- Porosification (1)
- Porosity (1)
- Porous materials (1)
- Positron annihilation spectroscopy (1)
- Powder bed additive manufacturing (1)
- Powder diffraction (1)
- Powder flow (1)
- Powder processing (1)
- Powder rheology (1)
- Power factor (1)
- Power law (1)
- Precipitate shape (1)
- Pressure assisted sintering (1)
- Preventive strategies (1)
- Principal stress (1)
- Principal stress components (1)
- Printing (1)
- Process development (1)
- Processing window (1)
- Production scatter (1)
- Projection center (1)
- Projekt AGIL - Alterung additiv gefertigter metallischer Materialien und Komponenten (1)
- Properties (1)
- Pseudosymmetry (1)
- Pultruded fiber rods (1)
- Radon transform (1)
- Reaction Sintering (1)
- Real-time deformation (1)
- Real-time qPCR (1)
- Recommendations (1)
- Recycling (1)
- Reference data (1)
- Refractory alloy (1)
- Refractory high entropy alloys (1)
- Refractory superalloys (1)
- Regolith (1)
- Reheating (1)
- Rejuvenation (1)
- Relaxation fatigue (1)
- Reliability (1)
- Residual Stress (1)
- Residual Stresses (1)
- Residual strains (1)
- Residual stresses (1)
- Resistance spot welding (1)
- Resonance testing (1)
- Review (1)
- Roughness (1)
- Round Robin (1)
- S-phase (1)
- SDC (1)
- SEM micrography (1)
- SLM (1)
- SO2 (1)
- STEM (1)
- Safety (1)
- Safety assessment (1)
- Samarium doped ceria (1)
- Sample holder (1)
- Sand blasting (1)
- Sandwich (1)
- Scaffold geometry (1)
- Scaffolds (1)
- Scale-dependent behavior (1)
- Scan strategies (1)
- Scanning acoustic microscopy (SAM) (1)
- Scanning transmission electron microscopy (STEM) (1)
- Scarf joint (1)
- Scavenging effect of iron (1)
- Schadensanalyse (1)
- Schwingstreifen (1)
- Scratches (1)
- Segregation (1)
- Segregation engineering (1)
- Selective Laser Melting (1)
- Selective laser melting (SLM) (1)
- Self-Assembly (1)
- Self-organization (1)
- Semantic Web Technologies (1)
- Semantic data integration (1)
- Semantic interoperability (1)
- Semantic web (1)
- Serial sectioning (1)
- Serienschnitte (1)
- Shadowgraphy (1)
- Shape memory alloy (1)
- Shape memory alloys (1)
- Shear (1)
- Shear load (1)
- Shear modulus (1)
- Shear strain (1)
- Shear testing (1)
- Shear-band cavitation (1)
- Shear-band structure (1)
- Short range order (1)
- Short-beam strength (1)
- Silicate glass (1)
- Silicoborate glasses (1)
- Silicon Carbide (1)
- Silicon release (1)
- Silver metallization paste (1)
- Simulation (1)
- Simulation of concrete (1)
- Single crystal Ni-Base superalloys (1)
- Single fiber pull-out test (1)
- Single-Crystal (1)
- Single-crystal (1)
- Sintering additive (1)
- Sinus floor augmentation (1)
- Size effect (1)
- Slip localization (1)
- Slow crack growth (1)
- Slow crack growth (SCG) (1)
- Slurry optimization (1)
- Small-angle scattering (1)
- Small-scale (1)
- Smart materials (1)
- Smectite (1)
- Soda-lime silicate glass (1)
- Soda-lime-silica (1)
- Soda-lime-silica glass (1)
- Sodium ion batteries (1)
- Softening temperature (1)
- Soil (1)
- Sol-gel coating (1)
- Solar panels (1)
- Solid-State-Synthesis (1)
- Solid-state-synthesis (1)
- Spar cap design (1)
- Specimen geometry (1)
- Spinodal decomposition (1)
- Split-vacancy defect complexes (1)
- Stable crack growth (1)
- Stainless steel (1)
- Standardisation (1)
- Statistics (1)
- Steam oxidation resistance (1)
- Steel P92 (1)
- Steel alloy (1)
- Steels (1)
- Stereoscopy (1)
- Strain (1)
- Strain difference (1)
- Strain energy (1)
- Stress distribution (1)
- Stress intensity (1)
- Stress-corrosion (1)
- Stress-strain behavior (1)
- Stress-strain-behavior (1)
- Structural composites (1)
- Structural defects (1)
- Structural dynamics (1)
- Structural health monitoring (1)
- Structural steel (1)
- Subcritical crack growth (1)
- Sulfiding (1)
- Superalloy single crystals (1)
- Supersaturation (1)
- Support configurations (1)
- Support vector machines (1)
- Surface crystallization (1)
- Surface elasticity (1)
- Surface energy (1)
- Surface modification (1)
- Surface nucleation (1)
- Surface stress (1)
- Swept wavelength interferometry (1)
- Symmetric dwell periods (1)
- Synchrotron X-ray diffraction (1)
- Synchrotron micro-tomography (1)
- Synchrotron radiations (1)
- Synthesis (1)
- T1 precipitate (1)
- TIG-welding (1)
- Temperature dependence (1)
- Tensile Test Ontology (1)
- Tensile testing (1)
- Tetragonal distortion (1)
- Tetragonality (1)
- Thermal Cycling (1)
- Thermal cycling (1)
- Thermal desorption mass spectrometry (1)
- Thermo-mechanical loading (1)
- Thermobimetal (1)
- Thermoelectric oxide (1)
- Thermoelectric oxides (1)
- Thermoelectrics (1)
- Thermomechanical fatigue (1)
- Thermoplastic matrix (1)
- Thermoplastic prepreg (1)
- Thermoset composition (1)
- Thermosetting resin (1)
- Thickening (1)
- Thin films (1)
- Thiol-ene click chemistry (1)
- Three-dimensional Bone tissue engineering (1)
- Three-dimensional tomographies (1)
- Titanium (1)
- Titanium oxide (1)
- Topography (1)
- Toughness (1)
- Transformer (1)
- Transmission Kikuchi diffraction (1)
- Transmission electron microscope (TEM) (1)
- Transmittance (1)
- Transparency (1)
- Transparent ceramic (1)
- Tribology (1)
- Tricalcium Phosphate (1)
- Triply Periodical Minimal Surface (1)
- Tungsten carbide (1)
- Tungsten-Rhenium (1)
- Turbine disk (1)
- Twinning (1)
- Two-photon-polymerization (1)
- UV-irradiation (1)
- Ultrasonic assited machining (1)
- Ultrasound (1)
- Under cyclic loading (1)
- Unidirectional composites (1)
- Utilization, and storage (CCUS) technology (1)
- Vickers hardness (1)
- Viscoelastic model (1)
- Viscoplasticity (1)
- Viscosity (1)
- Viscous sintering (1)
- Visual ontology development (1)
- Visualization (1)
- Vivianite (1)
- Vocabulary providers (1)
- Volatiles from thermosets (1)
- Volume changes (1)
- Volume fraction (1)
- Volume specific surface area (1)
- WAXS (1)
- Water (1)
- Water Diffusion (1)
- Water droplet erosion resistance (1)
- Welding (1)
- Wet chemical etching (1)
- Whole-chain CCS scenario (1)
- Work of adhesion (1)
- X-ray Diffraction (1)
- X-ray computed tomography (CT) (1)
- X-ray diffraction analysis (1)
- X-ray tomographic (1)
- X-ray-diffraction (1)
- XPCS (1)
- XRD (1)
- Young's modulus (1)
- Young`s modulus (1)
- Young´s modulus (1)
- Yttria stabilized zirconia (1)
- Zinc oxide (1)
- Zirconia-toughened alumina (1)
- ZnO (1)
- arbidic austempered ductile iron (1)
- battery aging mechanism (1)
- current collector corrosion (1)
- depth profiles (1)
- electron microscopy (1)
- high pressure (1)
- in-situ synthesis (1)
- infrared spectroscopy (1)
- microstructural changes (1)
- negative crystal growth (1)
- phosphate glasses (1)
- water speciation (1)
- µ-gravity (1)
- γ- и γ'-фазы, период кристаллической решетки (1)
- γ/γ' matrix (1)
- γ″ phase (1)
- θ′ phase (1)
- θ′-(Al2Cu) precipitate phase (1)
- высокие температуры (1)
- жаропрочные нике- левые сплавы (1)
- монокристалл (1)
- рентгеноструктурный анализ (1)
Organisationseinheit der BAM
- 5 Werkstofftechnik (337)
- 5.1 Mikrostruktur Design und Degradation (129)
- 5.2 Metallische Hochtemperaturwerkstoffe (60)
- 5.4 Multimateriale Fertigungsprozesse (53)
- 5.5 Materialmodellierung (42)
- 5.6 Glas (40)
- 5.0 Abteilungsleitung und andere (38)
- 9 Komponentensicherheit (37)
- 5.3 Polymere Verbundwerkstoffe (34)
- 8 Zerstörungsfreie Prüfung (33)
Paper des Monats
- ja (9)
Методом рентгеноструктурного анализа в интервале температур 18—1150 °С определены температурные зависимости периодов кристаллических решеток γ- и γ'-фаз, их размерно-го несоответствия (мисфит) и объемной доли γ'-фазы экспериментального монокристал-лического жаропрочного никелевого сплава. Определены диапазоны температур, в которых происходят интенсивные изменения структурно-фазовых характеристик исследованного сплава.
The wireless high-frequency technology requires a robust, cost-effective, and highly integrated substrate technology offering the capability for areas of tailored permittivity. The wet-chemical porosification of low temperature co-fired ceramics (LTCC) substrates offers such an approach by locally embedding air. Porosification of LTCC in both extremely acidic and alkaline media has been investigated in previous works. However, for improving the available knowledge on the porosification of LTCC with H3PO4 as a standard and a widely used etching solution, the impact of solution concentration was systematically investigated and a substantial improvement in the etching performance was achieved. Moreover, in the present study, for the first time, the intermediate pH values, and the impact of pH as a key parameter on the etching process have been investigated. For this purpose, the applicability of phosphate buffer solution (PBS) as a prospective novel etchant mixture for the porosification of a commercially available LTCC tape (Ceramtape GC) was explored. Valuable information about surface morphology, crystalline composition, and the pore structure of the etched LTCCs was gathered employing scanning electron microscopy, transmission electron microscopy, X-ray diffraction analysis, and mercury porosimetry measurements. Based on these findings, the performance of PBS-based etchant systems towards the generation of porous LTCCs combining high depths of porosification with acceptable surface characteristics for subsequent metallization is demonstrated. Based on the obtained results, by application of a 0.2 mol L−1 solution of PBS, the effective relative permittivity of test samples with a thickness of approximately 600 µm and a porosification depth of 186 µm from each side, could be reduced up to 10% of its initial “as fired” value. Also, based on the measurement results and by measuring the depth of porosification, the permittivity of the etched layer was estimated to show a reduction of up to 22% compared to the initial “as fired” value.
High-entropy alloys (HEAs) and compositionally complex alloys (CCAs) represent new classes of materials containing five or more alloying elements (concentration of each element ranging from 5 to 35 at. %). In the present study, HEAs are defined as single-phase solid solutions; CCAs contain at least two phases. The alloy concept of HEAs/CCAs is fundamentally different from most conventional alloys and promises interesting properties for industrial applications (e.g., to overcome the strength-ductility trade-off). To date, little attention has been paid to the weldability of HEAs/CCAs encompassing effects on the welding metallurgy. It remains open whether welding of HEAs/CCAs may lead to the formation of brittle intermetallics and promote elemental segregation at crystalline defects. The effect on the weld joint properties (strength, corrosion resistance) must be investigated. The weld metal and heat-affected zone in conventional alloys are characterized by non-equilibrium microstructural evolutions that most probably occur in HEAs/CCAs. The corresponding weldability has not yet been studied in detail in the literature, and the existing information is not documented in a comprehensive way. Therefore, this study summarizes the most important results on the welding of HEAs/CCAs and their weld joint properties, classified by HEA/CCA type (focused on CoCrFeMnNi and AlxCoCrCuyFeNi system) and welding process.
To understand the influence of water and alkalis on aluminosilicate glasses, three polymerized glasses with varying ratios of Na/K were synthesized [(22. 5-x)Na2O-xK2O-22.5 Al2O3-55 SiO2 with x = 0, 7.5, and 11.25]. Subsequently, these glasses were hydrated (up to 8 wt% H2O) in an internally heated gas pressure vessel. The density of hydrous glasses linearly decreased with water content above 1 wt%, consistent with the partial molar volume of H2O of 12 cm3/mol. Near-infrared spectroscopy revealed that hydroxyl groups are the dominant species at water content of <4 wt%, and molecular water becomes dominating at water content of >5 wt%. The fraction of OH is particularly high in the pure Na-bearing glass compared to the mixed alkali glasses. 27Al magic angle spinning-NMR spectroscopy shows that aluminum is exclusively fourfold coordinated with some variations in the local geometry. It appears that the local structure around Al becomes more ordered with increasing K/Na ratio. The incorporation of H2O reinforces this effect. The differential thermal analysis of hydrous glasses shows a significant mass loss in the range of glass transition already during the first upscan, implying the high mobility of water in the glasses. This observation can be explained by the open structure of the aluminosilicate network and by the low dissociation enthalpy of H2O in the glasses (≈ 8 kJ/mol). The effect of the dissolved H2O on the glass transition temperature is less pronounced than for other aluminosilicate glasses, probably because of the large fraction of Al in the glasses.
This chapter first gives an introduction to the concepts of SSA and volume-specific surface area (VSSA) and an outline of the BET method. It continues with a discussion of the relationship between particle size, shape, and the VSSA, followed by an overview of instrumentation, experimental methods, and standards. Finally, sections on the use of the VSSA as a tool to identify nanomaterials and non-nanomaterials and its role in a regulatory context provide some insight on the importance of VSSA in the current Regulation of nanomaterials.
Abstract While classically used to visualise the magnetic microstructure of functional materials (e.g., for magnetic applications), in this study, the Bitter technique was applied for the first time to visualise macroscopic deformation gradients in a polycrystalline low-carbon steel. Spherical indentation was chosen to produce a multiaxial elastic–plastic deformation state. After removing the residual imprint, the Bitter technique was applied, and macroscopic contrast differences were captured in optical microscopy. To verify this novel characterisation technique, characteristic “hemispherical” deformation zones evolving during indentation were identified using an analytical model from the field of contact mechanics. In addition, near-surface residual stresses were determined experimentally using synchrotron radiation diffraction. It is established that the magnetic domain distribution contrast provides deformation-related information: regions of different domain wall densities correspond to different “hemispherical” deformation zones (i.e., to hydrostatic core, plastic zone and elastic zone, respectively). Moreover, the transitions between these three zones correlate with characteristic features of the residual stress profiles (sign changes in the radial and local extrema in the hoop stress). These results indicate the potential of magnetic domain distribution imaging: visualising macroscopic deformation gradients in fine-grained ferromagnetic material with a significantly improved spatial resolution as compared to integral, mean value-based measurement methods.
AbstractViscous healing of cracks induced by the Vickers indentation in a soda lime magnesium silicate, a soda borosilicate, and a soda aluminosilicate glass (NAS) was studied by laser scanning microscopy. Plots of the crack length, width, and depth normalized to the initial crack length versus time over viscosity merge into single master curves of each of these quantities for each glass. Despite glass properties do not differ strikingly from each other, however, these master curves strongly differ among the glasses. This finding was attributed to a different interplay of various crack healing phenomena. Lateral cracks were found to be responsible for the bulging of the sample surface around the Vickers imprint, which in turn promotes radial crack widening as the main cause of healing delay. The most rapid healing of lateral cracks was observed in NAS in which bulging and crack widening were least pronounced.
How thermally activated structural excitations quantitatively mediate transport and microplasticity in a model binary glass at the microsecond timescale is revealed using atomistic simulation. These local excitations, involving a stringlike sequence of atomic displacements, admit a far-field shear-stress signature and underlie the transport of free-volume and bond geometry. Such transport is found to correspond to the Evolution of a disclination network describing the spatial connectivity of topologically distinct bonding environments, demonstrating the important role of geometrical frustration in both glass structure and its underlying dynamics.
Crack growth velocity in alkali silicate glasses was measured in vacuum across 10 orders of magnitude with double cantilever beam technique. Measured and literature crack growth data were compared with calculated intrinsic fracture toughness data obtained from Young´s moduli and the theoretical fracture surface energy estimated from chemical bond energies. Data analysis reveals significant deviations from this intrinsic brittle fracture behavior. These deviations do not follow simple compositional trends. Two opposing processes may explain this finding: a decrease in the apparent fracture surface energy due to stress-induced chemical changes at the crack tip and its increase due to energy dissipation during fracture.
During the energy transformation from fossil fuels to renewable energy sources, the use of hydrogen as fuel and energy storage can play a key role. This presents new challenges to industry and the scientific community alike. The storage and transport of hydrogen, which is nowadays mainly realized by austenitic stainless steels, remains problematic, which is due to the degradation of mechanical properties and the possibility of phase transformation by hydrogen diffusion and accumulation. The development of materials and technologies requires a fundamental understanding of these degradation processes. Therefore, studying the behavior of hydrogen in austenitic steel contributes to an understanding of the damage processes, which is crucial for both life assessment and safe use of components in industry and transportation. As one of the few tools that is capable of depicting the distribution of hydrogen in steels, time-of-flight secondary ion mass spectrometry was conducted after electrochemical charging. To obtain further information about the structural composition and cracking behavior, electron-backscattered diffraction and scanning electron microscopy were performed. Gathered data of chemical composition and topography were treated employing data fusion, thus creating a comprehensive portrait of hydrogen-induced effects in the austenite grade AISI 304L. Specimens were electrochemically charged with deuterium instead of hydrogen. This arises from the difficulties to distinguish between artificially charged hydrogen and traces existing in the material or the rest gas in the analysis chamber. Similar diffusion and permeation behavior, as well as solubility, allow nonetheless to draw conclusions from the experiments.