5 Werkstofftechnik
Filtern
Dokumenttyp
- Zeitschriftenartikel (363) (entfernen)
Sprache
- Englisch (356)
- Mehrsprachig (5)
- Deutsch (1)
- Russisch (1)
Referierte Publikation
- ja (363) (entfernen)
Schlagworte
- Additive manufacturing (22)
- EBSD (16)
- Additive Manufacturing (14)
- Microstructure (14)
- Corrosion (12)
- Residual stress (12)
- Transmission electron microscopy (12)
- Creep (11)
- Glass (10)
- Crystallization (8)
- Mechanical properties (7)
- Sintering (7)
- Steel (7)
- Aging (6)
- Carbon steel (6)
- Fatigue (6)
- High entropy alloy (6)
- High temperature corrosion (6)
- SEM (6)
- 3D printing (5)
- Bioactive glass (5)
- Degradation (5)
- Electron microscopy (5)
- Laser powder bed fusion (5)
- Metallic glasses (5)
- Neutron diffraction (5)
- Ontology (5)
- Oxidation (5)
- Plasticity (5)
- Alumina (4)
- CALPHAD (4)
- Ceramic (4)
- Ceramics (4)
- EXAFS (4)
- Electron backscatter diffraction (4)
- Fracture (4)
- HIP (4)
- High entropy alloys (4)
- Impurities (4)
- Kikuchi patterns (4)
- Lattice parameters (4)
- Martensite (4)
- Metallic glass (4)
- Nanoindentation (4)
- Plastic deformation (4)
- Scanning electron microscopy (4)
- Vickers indentation (4)
- X-ray diffraction (4)
- Zirconia (4)
- 3D-Printing (3)
- AISI 316L (3)
- Calcination (3)
- Carbon fibres (3)
- Crack healing (3)
- Dislocation (3)
- Environmental stress cracking (ESC) (3)
- Finite element analysis (3)
- Fracture toughness (3)
- Full notch creep test (FNCT) (3)
- General Materials Science (3)
- Glass transition (3)
- Grain boundary (3)
- Inconel 718 (3)
- Interfacial strength (3)
- Iron (3)
- Laser Powder Bed Fusion (3)
- Laser scanning microscopy (LSM) (3)
- Molecular dynamics (3)
- NMR spectroscopy (3)
- Nanoparticles (3)
- Nickel-based superalloys (3)
- Pattern matching (3)
- Phase-field simulation (3)
- Raman spectroscopy (3)
- Reproducibility (3)
- Self-healing (3)
- Single crystal (3)
- Stress intensity factor (3)
- Stress relaxation (3)
- Superalloy (3)
- TEM (3)
- Thermal expansion (3)
- Ti-6Al-4V (3)
- Viscosity (3)
- X-ray refraction (3)
- 3D-printing (2)
- AGIL (2)
- AISI 304L (2)
- Alloy design (2)
- Aluminum alloys (2)
- Atom probe tomography (2)
- Bacteria (2)
- Binder jetting (2)
- Bioactivity (2)
- Bioceramics (2)
- Bone regeneration (2)
- Bulk metallic glasses (2)
- CCS (2)
- CCUS (2)
- Calcium cobaltite (2)
- Characterization (2)
- Compositionally complex alloys (2)
- Computed Tomography (2)
- Computed tomography (2)
- Condensate (2)
- Coulomb explosion (2)
- CrCoNi (2)
- Crack growth (2)
- Crack propagation (2)
- Crop protection products (2)
- Crystal orientation (2)
- Crystal plasticity (2)
- Debinding (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)
- Foaming (2)
- Fractography (2)
- Fracture mechanics (2)
- GFRP (2)
- Geothermal (2)
- Glass ceramic (2)
- Glass-ceramic (2)
- Gold (2)
- Grain boundaries (2)
- Heat treatment (2)
- High-density polyethylene (2)
- High-entropy alloy (2)
- High-temperature corrosion (2)
- Hydrogen (2)
- IN718 (2)
- Infrared spectroscopy (2)
- Internal friction (2)
- Interphase (2)
- Kikuchi diffraction (2)
- Kikuchi pattern (2)
- LPBF (2)
- LTCC (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)
- Mobility (2)
- Modeling (2)
- Native oxide (2)
- Neutron Diffraction (2)
- Nickel alloys (2)
- Nickel-base superalloys (2)
- Ontologies (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)
- Residual Stress (2)
- S-Phase (2)
- SIMS (2)
- Sample preparation (2)
- Selective laser melting (2)
- Shape-memory alloys (2)
- Shear bands (2)
- Short-range order (2)
- Silicon carbide (2)
- Silicon nanowires (2)
- Single-crystals (2)
- Slow crack growth (SCG) (2)
- Sorption (2)
- Spray drying (2)
- Stress corrosion cracking (2)
- Sulfidation (2)
- Sulphidation (2)
- Superalloys (2)
- Superconducting magnet (2)
- Surface treatments (2)
- Tempered martensite-ferritic steel (2)
- Tensile properties (2)
- Tensile testing (2)
- Texture (2)
- Thermodynamics (2)
- Thermoelectric properties (2)
- Thermography (2)
- ToF-SIMS (2)
- Toughness (2)
- Transmission electron microscopy (TEM) (2)
- Water content (2)
- Water speciation (2)
- Wetting (2)
- X-ray absorption spectroscopy (2)
- X-ray computed tomography (CT) (2)
- 12%Cr steel (1)
- 316L (1)
- 316L stainless steel (1)
- 3D etching (1)
- 3D metallography (1)
- 3D-Metallographie (1)
- 3D-finite element modeling (1)
- 4-Dimensional scanning transmission (1)
- 9-12%Cr steel (1)
- Abrasion (1)
- Accelerated temporal integration (1)
- Accessible (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 Aging (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 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)
- Biosensor (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)
- Brownian motion (1)
- Bruchflächen (1)
- Bubble formation (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)
- CKAN (1)
- CO2 (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)
- CdTe quantum dots (1)
- Cellular substructure (1)
- Cellulose (1)
- Cement (1)
- Cement-based materials (1)
- Ceramic multilayer (1)
- Ceramic multilayers (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)
- Co-firings (1)
- Coating (1)
- Cobald based alloy (1)
- Coefficient of thermal expansion (1)
- Coherent x-ray scattering (1)
- Composite recycling (1)
- Compositionally complex alloy (1)
- Concrete 3D-printing (1)
- Condensed Matter Physics (1)
- Confined catalyst (1)
- Contact angle (1)
- Contact fatigue (1)
- Contact mechanics (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)
- 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)
- 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)
- Cytocompatibility (1)
- D. aging (1)
- D. creep D. viscoelasticity (1)
- DCB (1)
- DCB geometry (1)
- Damage (1)
- Data Interoperability (1)
- Data analysis (1)
- Data infrastructures (1)
- Data mapping (1)
- Data pipeline (1)
- Data processing (1)
- Datenbank (1)
- Debonding (1)
- Defect population (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)
- Design of experiment (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)
- Digitalizations (1)
- Dimensional mismatch of crystalline lattice periods (misfit) (1)
- Directional grain growth (1)
- Discrete element method (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 Backscatter Diffraction (1)
- Electron back-scattered diffraction (1)
- Electron backscattered diffraction (1)
- Electron beam-induced charging (1)
- Electron beam-induced fragmentation (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 (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 principles (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 damage (1)
- Fatigue performance (1)
- Fatigue striations (1)
- Fatigue testing (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)
- Firing (1)
- First derivative (1)
- Flowability (1)
- Four-point bending test (1)
- Fourier series (1)
- Fractional diffusion (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)
- Gallium (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 matrix composite (1)
- Glass powder (1)
- Glass-ceramics (1)
- Glass-ceramics definition (1)
- Glassy solids (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)
- HEA (1)
- Hackmanite (1)
- Hardness (1)
- Hausner ratio (1)
- Heat accumulation (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-strength steel (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 synthesis (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 diffraction (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)
- Internal stresses (1)
- Interoperable (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)
- Kidney injury (1)
- Kikuchi bands (1)
- Knowledge Graph (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)
- Lateral flow (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)
- Lorenz transmission electron microscopy (1)
- Low carbon steel (1)
- Low expansion (1)
- Low strain (1)
- Low-Cycle Fatigue (LCF) (1)
- Low-cycle fatigue (1)
- Low-loading (1)
- MEA (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)
- Manufacturing (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 alloy (1)
- Medium entropy alloys (1)
- Melt pool boundary (1)
- Melting (1)
- Meta material (1)
- Metal Dusting (1)
- Metal Magnetic Memory (1)
- Metal additive manufacturing (1)
- Metal and alloys (1)
- Metal magnetic memory (1)
- Metallic Glass (1)
- Metallic materials (1)
- Methodology (1)
- Micro-shrinkages (1)
- Microplastic stress (1)
- Microplasticity (1)
- Microplastics (1)
- Microspine (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)
- Microwave-assisted synthesis (1)
- Milling (1)
- Miniature specimens (1)
- Mis-match (1)
- Misfitting precipitate (1)
- Misorientation (1)
- Mixed Ca-K-Na phosphates (1)
- Mixed conductors (1)
- Mixed-linkers (1)
- Mn-oxides (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)
- NMR (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)
- Nanomaterials (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)
- 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)
- Nydrogen melting (1)
- Online Process Monitoring (1)
- Optical and Magnetic Materials (1)
- Optical centrifugation (1)
- Optical criterion of brittleness (1)
- Optical tweezers (1)
- Ordered/disordered structures (1)
- Ordering (1)
- Orientation (1)
- Orientation refinement (1)
- Orientation relationship (1)
- Orowan Mechanism (1)
- Osteogenesis (1)
- Oxidation protection (1)
- Oxide (1)
- Oxide coatings (1)
- Oxyfluoride (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)
- Particle-bed binder jetting (1)
- Passive components and circuits (1)
- Permittivity reduction (1)
- Persistent luminescence (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)
- Photochromism (1)
- Photocleavable organosilanes (1)
- Photopolymer composites (1)
- Phototrophs (1)
- Photovoltaic modules (1)
- Physical aging (1)
- Pipeline network (1)
- Pitting (1)
- Pitting corrosion (1)
- Plasma imaging (1)
- Plasma nanocoatings (1)
- Plasma spray (1)
- Plasmon enhancement (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)
- Portable sensor (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 (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 growth control (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 strains (1)
- Residual stresses (1)
- Resistance spot welding (1)
- Resonance testing (1)
- Reusable data (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 (SLM) (1)
- Self-Assembly (1)
- Self-organization (1)
- Semantic Data Integration (1)
- Semantic Interoperability (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 thinning (1)
- Shear-band cavitation (1)
- Shear-band structure (1)
- Short range order (1)
- Short-beam strength (1)
- Silicate glass (1)
- Silicate glass-ceramics (1)
- Silicoborate glasses (1)
- Silicon Carbide (1)
- Silicon release (1)
- Silver metallization paste (1)
- Simulation (1)
- Simulation workflow (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)
- Slurry (1)
- Slurry optimization (1)
- Small-angle scattering (1)
- Small-scale (1)
- Smart materials (1)
- Smectite (1)
- Soda lime silicate glass (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 oxide fuell cell (1)
- Solid-State-Synthesis (1)
- Solid-state-synthesis (1)
- Solubility (1)
- Space (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)
- Strength (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 roughness (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 strength (1)
- Tensile tests (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 (1)
- Thermoplastic forming (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)
- 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)
- Unidirectional composites (1)
- Upconversion (1)
- Upconverting nanoparticles (1)
- Utilization, and storage (CCUS) technology (1)
- Vickers hardness (1)
- Vickers identation (1)
- Viscoelastic model (1)
- Viscoplasticity (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)
- WAXS (1)
- Water (1)
- Water Diffusion (1)
- Water droplet erosion resistance (1)
- Water in glass (1)
- Water-based (1)
- Weibull distribution (1)
- Welding (1)
- Wet chemical etching (1)
- Whole-chain CCS scenario (1)
- Work of adhesion (1)
- X-ray Diffraction (1)
- X-ray diffraction analysis (1)
- X-ray tomographic (1)
- X-ray-diffraction (1)
- XANES (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)
- Zirconia: yttria stabilized (1)
- ZnO (1)
- aerosol deposition method (ADM) (1)
- arbidic austempered ductile iron (1)
- battery aging mechanism (1)
- calcium cobaltite (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)
- thermoelectric oxide (1)
- thermoelectrics (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 (363)
- 5.1 Mikrostruktur Design und Degradation (131)
- 5.2 Metallische Hochtemperaturwerkstoffe (65)
- 5.4 Multimateriale Fertigungsprozesse (63)
- 5.6 Glas (49)
- 5.5 Materialmodellierung (42)
- 5.0 Abteilungsleitung und andere (41)
- 9 Komponentensicherheit (37)
- 5.3 Polymere Verbundwerkstoffe (36)
- 8 Zerstörungsfreie Prüfung (36)
Paper des Monats
- ja (11)
Plastic deformation in crystals is mediated by the motion of line defects known as dislocations.
For decades, dislocation activity has been treated as a homogeneous, smooth continuous process. However, it is now recognized that plasticity can be determined by longrange correlated and intermittent collective dislocation processes, known as avalanches. Here we demonstrate in body-centered cubic Nb how the long-range and scale-free dynamics at room temperature are progressively quenched out with decreasing temperature, eventually revealing intermittency with a characteristic length scale that approaches the Burgers Vector itself. Plasticity is shown to be bimodal across the studied temperature regime, with conventional thermally-activated smooth plastic flow (‘mild’) coexisting with sporadic Bursts (‘wild’) controlled by athermal screw dislocation activity, thereby violating the classical Notion of temperature-dependent screw dislocation motion at low temperatures. An abrupt increase of the athermal avalanche component is identified at the critical temperature of the material.
Our results indicate that plasticity at any scale can be understood in terms of the coexistence of these mild and wild modes of deformation, which could help design better alloys by suppressing one of the two modes in desired temperature Windows.
Here, we trace in situ the slip-line formation and morphological signature of dislocation avalanches in a highentropy alloy with the aim of revealing their microstructural degree of localization. Correlating the intermittent microplastic events with their corresponding slip-line patterns allows defining two main event types, one of which is linked to the formation of new slip lines, whereas the other one involves reactivation of already existing slip lines. The formation of new slip lines reveals statistically larger and faster avalanches. The opposite tendency is seen for avalanches involving reactivation of already existing slip lines. The combination of both these types of events represents the highest degree of spatial avalanche delocalization that spans the entire sample, forming a group of events that determine the truncation length scale of the truncated power-law scaling. These observations link the statistics of dislocation avalanches to a microstructural observable.
We demonstrate the gradual shift from scale-free intermittent microplasticity to a scale-dependent behavior via the introduction of a variety of microstructural features within the Al-Cu binary alloy system. As long as the obstacles to dislocation motion remain shearable, the statistics of intermittent microplasticity has fat-tailed contributions. The introduction of incoherent precipitates leads to a complete transition from scale-free powerlaw scaling to an exponential and scale-dependent distribution. These results demonstrate how non-Gaussian interactions survive across different microstructures and further suggest that characteristic microstructural length scales and obstacle pinning-strengths are of secondary importance for the intermittency statistics, as long as dislocations can shear their local environment.
Predicting nonlinear physical aging of glasses from equilibrium relaxation via the material time
(2022)
The noncrystalline glassy state of matter plays a role in virtually all fields of materials science and offers complementary properties to those of the crystalline counterpart. The caveat of the glassy state is that it is out of equilibrium and therefore exhibits physical aging, i.e., material properties change over time. For half a century, the physical aging of glasses has been known to be described well by the material-time concept, although the existence of a material time has never been directly validated. We do this here by successfully predicting the aging of the molecular glass 4-vinyl-1,3-dioxolan-2-one from its linear relaxation behavior. This establishes the defining property of the material time. Via the fluctuation-dissipation theorem, our results imply that physical aging can be predicted from thermal-equilibrium fluctuation data, which is confirmed by computer simulations of a binary liquid mixture.
Metallic glasses (MGs) are known to be structurally heterogeneous at the nanometer (nm) scale. In addition, elastic property mapping has indicated the presence of at least an order-of-magnitude larger length scales, of which the origin continues to remain unknown. Here we demonstrate the existence of an elastic decorrelation length of the order of 100 nm in a Zr-based bulk MG using spatially resolved elastic property mapping via nanoindentation. Since compositional modulations sufficiently large to account for this elastic microstructure were not resolved by analytical scanning-transmission electron microscopy, chemical phase separation such as spinodal decomposition cannot explain their occurrence as previously suggested. Instead, we argue that the revealed long-range elastic modulations stem from structural variations affecting the local density. These emerge during solidification and are strongly influenced by the cooling constraints imposed on bulk MGs during the casting process.
Glassy solids evolve towards lower-energy structural states by physical aging. This can be characterized by structural relaxation times, the assessment of which is essential for understanding the glass’ time-dependent property changes. Conducted over short times, a continuous increase of relaxation times with time is seen, suggesting a time-dependent dissipative transport mechanism. By focusing on micro-structural rearrangements at the atomic-scale, we demonstrate the emergence of sub-diffusive anomalous transport and therefore temporal fractional diffusion in a metallic glass, which we track via coherent x-ray scattering conducted over more than 300,000 s. At the longest probed decorrelation times, a transition from classical stretched exponential to a power-law behavior occurs, which in concert with atomistic simulations reveals collective and intermittent atomic motion. Our observations give a physical basis for classical stretched exponential relaxation behavior, uncover a new power-law governed collective transport regime for metallic glasses at long and practically relevant time-scales, and demonstrate a rich and highly non-monotonous aging response in a glassy solid, thereby challenging the common framework of homogeneous aging and atomic scale diffusion.
High- and medium-entropy alloys (HEAs) are a quite new class of materials. They have a high potential for applications from low to high temperatures due to the excellent combination of their structural properties.
Concerning their application as components; processing properties, such as machinability, have hardly been investigated so far. Hence, machinability analyses with a focus on the influence of the milling process and its basic parameters (cutting speed, feed per cutting edge) on the resulting surface integrity of specimens from an equiatomic high- (CoCrFeMnNi) and a medium- (CoCrNi) entropy alloy have been carried out. A highly innovative milling process with ultrasonic assistance (USAM) was compared to conventional milling processes.
Recent studies have shown that USAM has a high potential to significantly reduce the mechanical load on the tool and workpiece surface during milling. In this study, the basic machining and ultrasonic parameters were systematically varied. After machining, the surface integrity of the alloys was analyzed in terms of topography, defects, subsurface damage, and residual stresses. It was observed that USAM reduces the cutting forces and increases the surface integrity in terms of lower tensile residual stresses and defect density near the surfaces for the CoCrFeMnNi alloy. It was shown that the cutting forces and the metallurgical influence in the sub surface region are reduced by increasing the cutting speed and reducing the feed rate per cutting edge. With the CoCrNi alloy, the tool revealed severe wear. As a result, for this alloy no influence of the parameters on the machinability could be determined.
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.
(Bio)geochemical cycling of gold (Au) has been demonstrated in present-day (semi)-arid, (sub)-tropical and temperate environment. Hereby biofilms on Au-bearing mineral- and Au-particle surfaces drive Au dispersion and reconcentration, thereby (trans)forming the particles. However, it is unknown if biogeochemical cycling of Au occurs in polar environments, where air temperatures can reach −40 °C and soils remain frozen for much of the year. Therefore, placer Au-particles, soils and waters were collected at two placer mining districts in arctic Finland, i.e., the Ivalojoki and Lemmenjoki goldfields. Sites were chosen based on contrasting settings ((glacio)-fluvial vs. glacial-till deposits) and depths (surface to 5m below current surface). Gold particles were studied using a combination of tagged 16S rRNA gene next generation sequencing and electron microscopic/microanalytical techniques. Across all sites a range of Au-particle morphologies were observed, including morphotypes indicative of Au dissolution and aggregation. Elevated Au concentrations indicative of Au mobility were detected in placer particle bearing soils at both districts. Typically Au-particles were coated by polymorphic biofilm layers composed of living and dead cells embedded in extracellular polymeric substances. Intermixed were biominerals, clays and iron-sulfides/oxides and abundant secondary Au morphotypes, i.e., nano-particles, microcrystals, sheet-like Au, branched Au networks and overgrowths and secondary rims. Biofilms communities were composed of Acidobacteria (18.3%), Bacteroidetes (15.1%) and Proteobacteria (47.1%), with β-Proteobacteria (19.5%) being the most abundant proteobacterial group. Functionally, biofilms were composed of taxa contributing to biofilm establishment, exopolymer production and nutrient cycling, abundant taxa capable of Au mobilization, detoxification and biomineralization, among them Cupriavidus metallidurans, Acinetobacter spp. and Pseudomonas spp., were detected. In conclusion, these results demonstrate that placer Au-particle transformation and Au dispersion occur in cold, arctic environments. This corroborates the existence of biogeochemical Au cycling in present-day cold environments.
This article reports temperature-dependent elastic properties (Young’s modulus, shear modulus) of three alloys measured by the dynamic resonance method. The alloys Ti-6Al-4V, Inconel IN718, and AISI 316 L were each investigated in a variant produced by an additive manufacturing processing route and by a conventional manufacturing processing route. The datasets include information on processing routes and parameters, heat treatments, grain size, specimen dimensions, and weight, as well as Young’s and shear modulus along with their measurement uncertainty. The process routes and methods are described in detail. The datasets were generated in an accredited testing lab, audited as BAM reference data, and are hosted in the open data repository Zenodo. Possible data usages include the verification of the correctness of the test setup via Young’s modulus comparison in low-cycle fatigue (LCF) or thermo-mechanical fatigue (TMF) testing campaigns, the design auf VHCF specimens and the use as input data for simulation purposes.