5 Werkstofftechnik
Filtern
Dokumenttyp
- Vortrag (460)
- Zeitschriftenartikel (416)
- Posterpräsentation (116)
- Beitrag zu einem Tagungsband (76)
- Forschungsdatensatz (27)
- Buchkapitel (11)
- Dissertation (10)
- Forschungsbericht (7)
- Sonstiges (5)
- Sammelband (Herausgeberschaft für den kompletten Band) (3)
Sprache
- Englisch (965)
- Deutsch (160)
- Mehrsprachig (9)
- Französisch (2)
- Russisch (1)
Schlagworte
- Additive Manufacturing (67)
- Additive manufacturing (61)
- Corrosion (57)
- Microstructure (44)
- Glass (40)
- Ontology (39)
- Creep (35)
- Fatigue (30)
- Transmission electron microscopy (30)
- EBSD (28)
- Degradation (19)
- Sintering (19)
- CCS (18)
- Ceramics (18)
- Crack growth (18)
- Crystallization (17)
- Residual stress (17)
- LCF (16)
- Steel (16)
- 316L (15)
- Ontologie (15)
- Additive Fertigung (14)
- Ceramic (14)
- Oxidation (14)
- High entropy alloys (13)
- Ti-6Al-4V (13)
- High temperature corrosion (12)
- Machine Learning (12)
- Nanoparticles (12)
- Aging (11)
- Aluminium (11)
- CCUS (11)
- Carbon steel (11)
- Electron microscopy (11)
- Fraktographie (11)
- Mechanical properties (11)
- Particle size (11)
- Scanning electron microscopy (11)
- 3D printing (10)
- Alloy 2618A (10)
- CALPHAD (10)
- CO2 (10)
- Coarsening (10)
- Crystal plasticity (10)
- FAIR (10)
- Fractography (10)
- Glas (10)
- High entropy alloy (10)
- Low Cycle Fatigue (10)
- Neutron diffraction (10)
- SEM (10)
- Simulation (10)
- AISI 316L (9)
- DCB (9)
- Diffraction (9)
- Digitalization (9)
- EN AW-2618A (9)
- Glass fiber reinforced polymers (9)
- Impurities (9)
- Laser powder bed fusion (9)
- Mikrostruktur (9)
- Slurry (9)
- Thermoelectrics (9)
- VSSA (9)
- Water speciation (9)
- X-ray diffraction (9)
- AGIL (8)
- Alumina (8)
- Digitalisierung (8)
- Geothermal (8)
- High-temperature corrosion (8)
- Hydrogen (8)
- Kriechen (8)
- Martensitic steel (8)
- Nickel-base superalloys (8)
- S-phase (8)
- Semantic Web Technologies (8)
- Sulfidation (8)
- TEM (8)
- Aluminium alloy (7)
- Anisotropy (7)
- Damage (7)
- Heat treatment (7)
- Layerwise slurry deposition (7)
- Mechanical testing (7)
- Plattform MaterialDigital (7)
- Powder (7)
- Semantic Interoperability (7)
- Soda-lime silicate glass (7)
- Thermomechanical fatigue (7)
- Vickers (7)
- Water content (7)
- Zugversuch (7)
- Bioactive glass (6)
- CO2 quality (6)
- Composite (6)
- Computed Tomography (6)
- Data Interoperability (6)
- Environmental stress cracking (6)
- Foaming (6)
- Full Notch Creep Test (6)
- HIP (6)
- In situ (6)
- Knowledge Representation (6)
- LTCC (6)
- Laser Powder Bed Fusion (6)
- Lattice parameters (6)
- Metallic glasses (6)
- Nano powder (6)
- P92 (6)
- Plasticity (6)
- Polymer (6)
- Residual Stress (6)
- Robotic melting (6)
- Sandwich (6)
- Schadensanalyse (6)
- Schädigung (6)
- Selective laser melting (6)
- Superalloy (6)
- Supercritical/dense phase CO2 (6)
- TMF (6)
- Viscosity (6)
- Wind turbine blades (6)
- Alterung (5)
- Betriebsfestigkeit (5)
- CCU (5)
- Carbon capture (5)
- Carbon steels (5)
- Creep behavior (5)
- Dark-field transmission electron microscopy (DFTEM) (5)
- Data mapping (5)
- Diesel (5)
- Diffusion (5)
- Dislocation (5)
- Droplet corrosion (5)
- Electron backscatter diffraction (5)
- Environmental stress cracking (ESC) (5)
- FAIR data (5)
- FAIR data management (5)
- Fe-Al alloys (5)
- Fracture (5)
- High alloyed steel (5)
- High-density polyethylene (5)
- Inconel 686 (5)
- Intermetallics (5)
- Iron aluminides (5)
- Keramik (5)
- Knowledge graph and ontologies (5)
- Lebensdauer (5)
- Microgravity (5)
- Mikroplastik (5)
- Modeling (5)
- Nanoindentation (5)
- Non-destructive testing (5)
- Normung (5)
- PMD Core Ontology (5)
- Phase-field simulation (5)
- Pipeline (5)
- Pipeline network (5)
- Polymer matrix composites (5)
- Reference data (5)
- Sample preparation (5)
- Shear modulus (5)
- Stress relaxation (5)
- Superaustenite steel (5)
- Tensile Test (5)
- Tensile testing (5)
- Texture (5)
- ToF-SIMS (5)
- Transmission electron microscopy (TEM) (5)
- Vickers indentation (5)
- Wissensrepräsentation (5)
- Workflow (5)
- X-ray refraction (5)
- Young's modulus (5)
- 3D-printing (4)
- AISI 304L (4)
- Alkali ions (4)
- Alkali zinc borate glasses (4)
- Aluminum alloys (4)
- Bildanalyse (4)
- Binder Jetting (4)
- Brinell hardness (4)
- Calcination (4)
- Calcium cobaltite (4)
- Carbon capture storage (4)
- Carbon dioxide (4)
- Characterization (4)
- Chemically complex alloy (4)
- Coating (4)
- Composites (4)
- Compositionally complex alloys (4)
- Concrete (4)
- Crack propagation (4)
- Crack tip opening displacement (4)
- Creep-fatigue (4)
- Crystal orientation (4)
- Data Fusion (4)
- Data Space (4)
- Deuterium (4)
- EXAFS (4)
- Elastic modulus (4)
- Environmental Stress Cracking (4)
- Ermüdung (4)
- Fatigue crack growth (4)
- Finite element analysis (4)
- Fracture surface (4)
- Fracture toughness (4)
- Full-Notch Creep Test (FNCT) (4)
- GD-OES (4)
- Gassensorik (4)
- High Cycle Fatigue (4)
- High temperature (4)
- High-entropy alloy (4)
- High-entropy alloys (4)
- IN718 (4)
- In-space manufacturing (4)
- Inconel 718 (4)
- Internal friction (4)
- Kikuchi patterns (4)
- Low cycle fatigue (4)
- Martensite (4)
- Mechanical behavior (4)
- Metallic glass (4)
- Microplastics (4)
- Microstrucrue Design (4)
- Microstructural characterization (4)
- Microstructure Design (4)
- Microstructure evolution (4)
- Molecular dynamics (4)
- NTE (4)
- Nano (4)
- Nano-powder (4)
- Ni-Resist (4)
- Orientation (4)
- Oxidglas (4)
- PE-HD (4)
- Pattern matching (4)
- Pitting (4)
- Plastic deformation (4)
- Plattform Material Digital (4)
- Polyaniline (4)
- Precipitation (4)
- Raman spectroscopy (4)
- Recommendations (4)
- Reproducibility (4)
- Roughness (4)
- SIMS (4)
- Scale-bridging (4)
- Scarf repairs (4)
- Self-healing (4)
- Single crystal (4)
- Spectroscopy (4)
- Spray drying (4)
- Surface (4)
- Surface energy (4)
- TED-GC-MS (4)
- Tensile Test Ontology (4)
- Tensile test (4)
- Thermomechanics (4)
- Ultrasound (4)
- Virtual experiments (4)
- Welding (4)
- Whole-chain CCS scenario (4)
- XRD (4)
- Zerstörungsfreie Prüfung (4)
- Zirconia (4)
- 3D (3)
- 3D-Printing (3)
- Ab-initio (3)
- Advanced ceramics (3)
- Aluminium Alloy (3)
- Binder jetting (3)
- Bioceramics (3)
- Biodiesel (3)
- CFK (3)
- CLS (3)
- Carbon Fiber Reinforced Plastics (3)
- Carbon fibres (3)
- Cement (3)
- Ceramic spring (3)
- Computed tomography (3)
- Corrosion Fatigue (3)
- Corrosion fatigue (3)
- Coulomb explosion (3)
- Crack (3)
- Crack Propagation (3)
- Crack evolution (3)
- Crack healing (3)
- Creep data (3)
- Dark-field transmission electron microscopy (3)
- Datenbank (3)
- Defects (3)
- Destabilization (3)
- Dielectric breakdown (3)
- Dielectric strength (3)
- Diffraction Enhanced Imaging (3)
- Digital image correlation (3)
- Digitaler Zwilling (3)
- Digtial Representation (3)
- Diopside (3)
- Elastic constants (3)
- Electron Backscatter Diffraction (3)
- Electronic Lab Notebook (3)
- FIB (3)
- Ferritic-martensitic steels (3)
- Fracture Toughness (3)
- Fracture mechanics (3)
- Fracture surface analysis (3)
- Full notch creep test (FNCT) (3)
- GFRP (3)
- General Materials Science (3)
- Glass ceramic (3)
- Glass powder (3)
- Glass transition (3)
- Glass-ceramic (3)
- Glass-ceramics (3)
- Gold nanoparticles (3)
- Grain boundaries (3)
- Grain boundary (3)
- Grain boundary engineering (3)
- H2Safety@BAM (3)
- Hardness (3)
- High Entropy Alloy (3)
- High temperature mechanical properties (3)
- IN 718 (3)
- ISRU (3)
- In situ tensile test (3)
- Infrarotspektroskopie (3)
- Interfacial strength (3)
- Interoperability (3)
- Inverted classroom (3)
- Iron (3)
- Iron oxide nanoparticles (3)
- Kikuchi diffraction (3)
- Kikuchi pattern (3)
- Knowledge graph (3)
- Korrosion (3)
- Laser (3)
- Laser ablation in liquid (3)
- Laser beam melting (3)
- Laser cladding (3)
- Laser scanning microscopy (LSM) (3)
- Lattice misfit (3)
- Layerwise Slurry Deposition (3)
- Lightweight materials (3)
- Lithium Ion Batteries (3)
- Luftultraschall (3)
- ML (3)
- Mechanical Engineering (3)
- Mechanics of Materials (3)
- Mechanische Eigenschaften (3)
- Metadata schema (3)
- Microhardness (3)
- Microstructure analysis (3)
- Multilayer (3)
- NMR spectroscopy (3)
- Nanomaterials (3)
- Nickel-based superalloys (3)
- Ontologies (3)
- Oxide Glasses (3)
- PBF-LB/M/316L (3)
- PMD (3)
- PMDco (3)
- Permeability (3)
- Phase transformations (3)
- Phase-field (3)
- Polyethylene (3)
- Porosity (3)
- Pressure-assisted sintering (3)
- Pulveraktivkohle (3)
- REM (3)
- Referenzdaten (3)
- Relaxation (3)
- Research Data Management (3)
- Residual Stresses (3)
- Residual stresses (3)
- Rotor blade (3)
- Röntgenrefraktion (3)
- S-Phase (3)
- SLM (3)
- Scintillators (3)
- Selective Laser Melting (3)
- Semantic Data (3)
- Semantic Web (3)
- Shape-memory alloys (3)
- SiO2 (3)
- Silicate Glasses (3)
- Silicon Carbide (3)
- Single-crystals (3)
- Slow crack growth (SCG) (3)
- Sol-gel (3)
- Sol-gel coating (3)
- Solid-state (3)
- Solubility (3)
- Stress intensity factor (3)
- Sulfiding (3)
- Superalloys (3)
- Superlegierung (3)
- Surface crystallization (3)
- Syngle Crystal alloy (3)
- TDEP (3)
- Temperature (3)
- Tempered Martensite Ferritic Steels (3)
- Tempered martensite-ferritic steel (3)
- Tensile data (3)
- Thermal expansion (3)
- Thermo-Mechanical Fatigue (3)
- Thermogravimetrie (3)
- Titanium (3)
- Titanium oxide (3)
- Topography (3)
- UV-irradiation (3)
- Utilization (3)
- Vickers hardness (3)
- Viscoplasticity (3)
- Wasser (3)
- Wind energy (3)
- Wind turbine blade shells (3)
- Windenergie (3)
- µ-gravity (3)
- μ-gravity (3)
- 3D Druck (2)
- AM (2)
- Additiv gefertigter Stahl (2)
- Adiabatic calorimeter (2)
- Ageing (2)
- Agglomerates (2)
- Aggressive environment (2)
- Air-coupled ultrasonic testing (2)
- Airborne ultrasonic testing (2)
- Al-Cu-Li alloys (2)
- Al2O3 (2)
- Alloy design (2)
- Aluminosilicate glasses (2)
- Aluminum (2)
- Aluminum alloy (2)
- Analysis (2)
- Analytische Zentrifuge (2)
- Annealing (2)
- Aquifer (2)
- Atom probe tomography (2)
- Austenitic stainless steel (2)
- Austenitic steel 316L (2)
- Automation (2)
- Bacteria (2)
- Belebtschlamm (2)
- Biaxial strength (2)
- Bio Ceramics (2)
- Bioactive Glass (2)
- Bioactivity (2)
- Biofilm (2)
- Bond energy (2)
- Bone regeneration (2)
- Brittle fracture (2)
- Bruchflächen (2)
- Bulk metallic glasses (2)
- CO2-storage (2)
- CT (2)
- Calciumcobaltit (2)
- Calciummanganat (2)
- Capture (2)
- Carbon (2)
- Carbon capture and storage (2)
- Carbon storage (2)
- Casting (2)
- CeO2 (2)
- Ceramic multilayer (2)
- Ceria (2)
- Chemo-mechanical coupling (2)
- Chromium oxide (2)
- Coatings (2)
- Condensate (2)
- Condensation (2)
- Continnum damage model (2)
- Copper (2)
- Copper alloys (2)
- Corrosion resistance (2)
- CrCoNi (2)
- CrMnFeCoNi (2)
- Crack propagation analysis (2)
- Creep-Fatigue (2)
- Crevice corrosion (2)
- Crop protection products (2)
- Cross linking (2)
- Cure process (2)
- Cyclic softening (2)
- DLS (2)
- Data Management (2)
- Data Structures (2)
- Data analysis (2)
- Data management (2)
- Dataset (2)
- Debinding (2)
- Deep Learning (2)
- Dehnungsfehler (2)
- Density (2)
- Density-based Phase-Field Modelling (2)
- Density-based Thermodynamics (2)
- Density-based model (2)
- Densty-based Thermodynamics (2)
- Dental (2)
- Depth-profiling (2)
- Dielectric properties (2)
- Diffraction Elastic Constants (2)
- Diffraction contrast (2)
- Diffusion coefficient (2)
- Digital material representation (2)
- Digital representation (2)
- Digitization (2)
- Diopsid (2)
- Dislocations (2)
- Dispersion process (2)
- Distribution function (2)
- Ductile iron (2)
- Dynamic mechanical analysis (DMA) (2)
- EDX (2)
- EDXRD (2)
- Early oxidation (2)
- Elastic microstructure (2)
- Elasticity (2)
- Electron beam induced modification (2)
- Electron beam-induced fragmentation (2)
- Electron diffraction (2)
- Electron energy (2)
- Electron-beam-induced modification (2)
- Energy distribution (2)
- Environmental Stress Cracking (ESC) (2)
- Environmentally assisted cracking (2)
- Epoxy (2)
- Erneuerbare Energien (2)
- Extensometer (2)
- FAIR Data Management (2)
- Fahrrad (2)
- Faser-Kunststoff-Verbunde (2)
- Faserkunststoffverbunde (2)
- Faseroptische Sensorik (2)
- Fatigue damage (2)
- Fatigue of sandwich shell structures (2)
- Fatigue performance (2)
- Fatigue testing (2)
- FeCr- alloys (2)
- Ferroelectret (2)
- Ferroelektret (2)
- Fiber reinforced polymer (2)
- Flowability (2)
- Fluoride phosphate glasses (2)
- Fracture Surface Analysis (2)
- Fracture surface energy (2)
- Fraktografie (2)
- Fungi (2)
- GFK (2)
- Geführte Ultraschallwellen (2)
- Gender gap (2)
- Gitterkonstanten (2)
- Glass Digital (2)
- Glass composition (2)
- Glass forming (2)
- Gold (2)
- Granules (2)
- HEA (2)
- Hard machining (2)
- Heat Treatment (2)
- High Alloyed Steel (2)
- High Entropy Alloys (2)
- High Temperature Corrosion (2)
- High Temperature Testing (2)
- Hochentropie-Legierung (2)
- Hochtemperatur (2)
- Hot pressing (2)
- Hot stage microscopy (2)
- Hydrogen permeation (2)
- IR (2)
- Imaging techniques (2)
- In-situ (2)
- Inconel 625 (2)
- Infrared spectroscopy (2)
- Infrastructure (2)
- Injection (2)
- Interface (2)
- Interfacial shear strength (2)
- Interphase (2)
- Ionic porosity (2)
- Joined nickel-based alloys (2)
- Kavitation (2)
- Keramikfeder (2)
- Kikuchi (2)
- Kleinprobenprüfung (2)
- Knowledge Graph (2)
- Kontrastierung (2)
- L-PBF (2)
- LPBF (2)
- LSD-print (2)
- Laminography (2)
- Laser Powder Bed fusion (2)
- Lattice distortion (2)
- Layerwise (2)
- Lead borate glasses (2)
- Leckdetektion (2)
- Li-ion battery (2)
- Long-term behavior (2)
- Long-term storage (2)
- Lorenz transmission electron microscopy (2)
- Lunar habitat (2)
- Lunar regolith (2)
- Lunar regolith simulant (2)
- MEA (2)
- MOUSE (2)
- Manganese oxide (2)
- Manufacturing (2)
- Mars (2)
- Martensitic transformation (2)
- Mass transport (2)
- Material Digital (2)
- Material degradation (2)
- Material digital (2)
- Materials Modelling (2)
- Materials science (2)
- Medium Entropy Alloys (2)
- Melt pool boundary (2)
- Metal seal (2)
- Metrologie zur Wasserstoffspeicherung (2)
- Micro-shrinkages (2)
- Micromechanical model (2)
- Microstructural analysis (2)
- Microstructural evolution (2)
- Microstructure and texture (2)
- Microstructure-property-correlation (2)
- Mikrostrukturentwicklung (2)
- Mixed Ca-K-Na phosphates (2)
- Mixed gas atmosphere (2)
- Mobility (2)
- Monte-Carlo Simulation (2)
- Multiaxial deformation (2)
- Multifunctional nanoparticles (2)
- Multilayer technology (2)
- Multilayertechnik (2)
- NDT (2)
- NFDI (2)
- Na and K rhenanites (2)
- Nano particle (2)
- Nano screening (2)
- Nanomaterial (2)
- Nanopulver (2)
- Nanostructure quantification (2)
- Native oxide (2)
- Neutron Diffraction (2)
- Nickel alloys (2)
- Nickel-base alloy (2)
- Niobium alloying (2)
- Notches (2)
- Nucleation (2)
- OECD TG 124 (2)
- Ontologien (2)
- Ontology development (2)
- Orientation precision (2)
- Oriented surface crystallization (2)
- Ostwald ripening (2)
- Oxidation behavior (2)
- Oxyfuel (2)
- Parametric modeling (2)
- Particle morphology (2)
- Partikelgrößenverteilung (2)
- Paving (2)
- Phase change material (2)
- Phase diagram (2)
- Phase separation (2)
- Phase transformation (2)
- Phase-Field Simulations (2)
- Phasenidentifikation (2)
- Photon counting detector (2)
- Pipelines (2)
- Polyethylen (2)
- Polyethylen hoher Dichte (2)
- Polyethylene, PE-HD (2)
- Polymer Matrix Composites (2)
- Porcelain (2)
- Pores (2)
- Preceramic polymer (2)
- Pressure assisted sintering (2)
- Probengrößeneffekt (2)
- Process monitoring (2)
- Protective coating (2)
- Präparation (2)
- Push-out Test (2)
- Quasicrystal (2)
- Rapid solidification (2)
- Ratio refinement (2)
- Reaction sintering (2)
- Reaction-sintering (2)
- Recycling (2)
- Reference material (2)
- Refractory high entropy alloys (2)
- Ressidual stress (2)
- Review (2)
- Rissentwicklung (2)
- Risswachstum (2)
- Roboter (2)
- Robotische Glasschmelzanlage (2)
- Robotische Schmelzanlage (2)
- Rotorblattschalen (2)
- Round robin (2)
- Röntgen-Refraktion (2)
- Röntgenbeugung (2)
- S355 steel sheet (2)
- SAXS (2)
- Safety assessment (2)
- Salt eutectics (2)
- Scanning transmission electron microscopy (STEM) (2)
- Schadensprävention (2)
- Schwingstreifen (2)
- Semantic Representation (2)
- Semantic web (2)
- Semantisches Web (2)
- SensRef (2)
- Sensorik (2)
- Shear bands (2)
- Short-range order (2)
- Sibayak (2)
- Silicon carbide (2)
- Silicon nanowires (2)
- Silver diffusion (2)
- Silver metallization paste (2)
- Silver nanoparticle (2)
- Silver-glass-metallization-paste (2)
- Simulation of concrete (2)
- Single-Crystal (2)
- Sinter additive (2)
- Sintering additives (2)
- Sintern (2)
- Size distribution (2)
- Slow crack growth (2)
- Small-angle scattering (2)
- Soda-lime-silica glass (2)
- Solar sintering (2)
- Sorption (2)
- Space (2)
- Spannungs-Dehnungs-Verhalten (2)
- Spannungsriss (2)
- Spring constant (2)
- Stainless steel (2)
- Standard (2)
- Standardisierung (2)
- Standardization (2)
- Starch (2)
- Starch nanoparticle (2)
- Steels (2)
- Storage (2)
- Strength (2)
- Stress corrosion cracking (2)
- Structural Health Monitoring (SHM) (2)
- Structural steel (2)
- Struktur (2)
- Sulphidation (2)
- Superalloy single crystals (2)
- Superconducting magnet (2)
- Supercritical CO2 (2)
- Surface Energy (2)
- Surface nucleation (2)
- Surface treatments (2)
- Symmetric dwell periods (2)
- Synchrotron Tomography (2)
- Synchrotronstrahlung (2)
- Synthetic air (2)
- Temperaturschwankungen (2)
- Tensile Properties (2)
- Tensile properties (2)
- Thermal Spray (2)
- Thermal energy storage (2)
- Thermoanalyse (2)
- Thermodynamics (2)
- Thermoelectric (2)
- Thermoelectric oxide (2)
- Thermoelectric oxides (2)
- Thermoelectric properties (2)
- Thermographie (2)
- Thermography (2)
- Thermogravimetry (2)
- Thermomechanik (2)
- Thermoplastic (2)
- Thermoset polymers (2)
- Ti64 (2)
- TiAl5V4 (2)
- Titan (2)
- Topografie (2)
- Topographie (2)
- Toughness (2)
- Transmission electron microscope (TEM) (2)
- Transmissionselektronenmikroskopie (2)
- Transparent ceramics (2)
- Tribologie (2)
- Two Photon Polymerization (2)
- Under cyclic loading (2)
- Upconversion (2)
- Utilization, and storage (CCUS) technology (2)
- Viscous sintering (2)
- Volume specific surface area (2)
- Wall thickness (2)
- Wandler (2)
- Water-based (2)
- Weibull Distribution (2)
- Weibull distribution (2)
- Werkstoffprüfung (2)
- Wetting (2)
- Wind turbine (2)
- Wood protection (2)
- X-Ray Diffraction (2)
- X-ray absorption spectroscopy (2)
- X-ray computed tomography (CT) (2)
- X-ray laminography (2)
- XANES (2)
- Zero-g (2)
- Zugeigenschaften (2)
- corrosion (2)
- robotische Glasschmelzanlage (2)
- Öffentliche Sicherheit (2)
- 12%Cr steel (1)
- 150 Years (1)
- 2PP (1)
- 316L stainless steel (1)
- 3D REM (1)
- 3D Reconstruction (1)
- 3D etching (1)
- 3D glass structure model (1)
- 3D imaging (1)
- 3D materialography (1)
- 3D metallography (1)
- 3D-Metallographie (1)
- 3D-finite element modeling (1)
- 4-Dimensional scanning transmission (1)
- 5G (1)
- 9-12% Cr ferritic-martensitic steels (1)
- 9-12%Cr steel (1)
- 9–12%Cr steel (1)
- AFM (1)
- AFM based test methods (1)
- ATZ (1)
- Abgasturbolader Heißteile (1)
- Abrasion (1)
- Abwasser (1)
- Accelerated integration scheme (1)
- Accelerated temporal integration (1)
- Accessible (1)
- Acid-leaching (1)
- Acids (1)
- Active thermography (1)
- Additive manufactured Ni-base superalloys (1)
- Adiabatic shear bands (1)
- Adolf Martens (1)
- Advanced high strength steels (1)
- Advanced manufacturing (1)
- Advanced wastewater treatment (1)
- Aerospace (1)
- Age hardening (1)
- Aggressive environement (1)
- Aggressive environments (1)
- Aggressive gases (1)
- Aging mechanisms (1)
- Al alloys (1)
- Al-Cu alloy (1)
- Al-Cu binary alloy system (1)
- Al-Cu-Li-alloy (1)
- Al-Li alloys (1)
- Al2CuMg (1)
- Alcium alkali phosphate (1)
- Alkali aluminosilicate glasses (1)
- Alkali and alkaline earth silicate and borate glass (1)
- Alkali zinc borate glass (1)
- Alkali-activated materials (1)
- Allgemeine Grundlagen (1)
- Alloy (1)
- Alloy 2818A (1)
- Alloy Safety (1)
- Alloy microstructure (1)
- Alloys (1)
- Alloys' Safety (1)
- Alpha-tricalcium phosphate (1)
- Alumina coatings (1)
- Alumina toughened zirconia (1)
- Aluminium alloys (1)
- Aluminiumlegierung (1)
- Aluminum Alloy Aging (1)
- Amorphization (1)
- Amorphous silica (1)
- Analyse (1)
- Analytical scanning electron microscopy (1)
- Analytical services (1)
- Analytik (1)
- Angle measurement (1)
- Anhydrite (1)
- Anticorrosion (1)
- Anwendungen (1)
- Approximant (1)
- Aquifer fluid (1)
- Artefact (1)
- Artificial weathering (1)
- Atacama Desert (1)
- Atmospheric Plasma Spraying (1)
- Atmospheric plasma spraying (1)
- Atomic packing factor (1)
- Atomistic Simulation (1)
- Atomistic simulations (1)
- Atomization (1)
- Aufbau von Festkörpern (1)
- Aussonderugnsrate (1)
- Austenite-to-martensite phase transformation (1)
- Austenitic alloys (1)
- Austenitic cast iron (1)
- Austenitic steel (1)
- Austenitischer Stahl (1)
- Automatable digital approach (1)
- Automated Bragg angle determination (1)
- Automated analysis (1)
- Automated finite element analysis (1)
- Automated image analysis (1)
- Automatische Finite Element Simulation (1)
- BCS (1)
- BET (1)
- BTEX (1)
- BTS (1)
- Bacterial attachment (1)
- Batch reactions (1)
- Beanspruchung (1)
- Behmite (1)
- Berstdruck (1)
- Bilanzierung (1)
- Bimodal distribution (1)
- Binders/binding (1)
- Bio Ceramic (1)
- Bio active ceramic (1)
- Bio-ceramic engineering (1)
- Bioactive (1)
- Bioactive bone grafting material (1)
- Bioactive glass scaffold (1)
- Bioceramic (1)
- Biogeochemical cycling (1)
- Biogeochemistry (1)
- Biomineralisation (1)
- Biopolymer (1)
- Bioresorbable (1)
- Biphasic calcium phosphate (1)
- Bitter technique (1)
- Blended learning (1)
- Blähen (1)
- Boden (1)
- Bone marrow-derived mesenchymal stem cell (1)
- Borate (1)
- Borate glasses (1)
- Borosilicate glass (1)
- Bragg angles (1)
- Brass (1)
- Bravais lattice (1)
- Bravais lattices (1)
- Breakdown strength (1)
- Brittle / ductile fracture behavior (1)
- Brown-rot fungi (1)
- Brownian motion (1)
- Bruch (1)
- Bruchflächenanalyse (1)
- Bruchflächenauswertung (1)
- Bubble formation (1)
- Bundesoberbehörden (1)
- Burst (1)
- Burst test (1)
- C. lap-shear (1)
- CALPHAD database analysis (1)
- CALPHAD databases analysis (1)
- CCUS, supercritical/dense phase CO2, carbon steels, martensitic steel, superaustenite steel, droplet corrosion (1)
- CFRP (1)
- CKAN (1)
- CMSX4 (1)
- CO2 Corrosion (1)
- CO2 corrosion (1)
- CO2 pipeline transport (1)
- CO2 separation membranes (1)
- CO2-Speicherung (1)
- CO2-corrosion (1)
- Cabon capture and storage (1)
- Calcium Cobaltite (1)
- Calcium alkali orthophosphate materials (1)
- Calcium manganate (1)
- Calcium sulfates (1)
- Calculated intrinsic fracture toughness (1)
- Calibration (1)
- Cantor alloy (1)
- Carbide phase NbC (1)
- Carbidic austempered ductile iron (1)
- Carbon steels (1)
- Carbon Capture (1)
- Carbon Capture, Utilization and Storage (CCUS) (1)
- Carbon Fibers (1)
- Carbon Fibre (1)
- Carbon capture, utilization and storage technology (1)
- Carbon fibre-reinforced-plastics (1)
- Carbon nanotubes (1)
- Casing (1)
- Catalogue of services (1)
- Cavitation (1)
- Ccs (1)
- CdTe quantum dots (1)
- Cellular substructure (1)
- Cellulose (1)
- Cement-based materials (1)
- Centrifugal casting (1)
- Centrifugal compressor wheel (1)
- Ceramic multilayers (1)
- Ceramic nano particles (1)
- Ceramic springs (1)
- Ceramics 3D printing (1)
- Cerium oxide (1)
- Certification Standard 22 (1)
- Certified Referencematerial (1)
- Cetrifugal Liquid Sedimentation CLS (1)
- Chalcogenides (1)
- Characterisation (1)
- Charpy test (1)
- Chemically Complex Alloy (1)
- Chemically complex alloys (1)
- Chemische Analyse (1)
- Chemometrics (1)
- Chemometrie (1)
- Chromatography (1)
- Chromia (1)
- Chrystal orientation (1)
- Classification (1)
- Clay ISRU (1)
- Co-axial monitoring (1)
- Co-firing (1)
- Co-segregation (1)
- Co-firings (1)
- Co2-Storage (1)
- Cobald based alloy (1)
- Coefficient of thermal expansion (1)
- Complex borides (1)
- Complex concentrated alloy (CCA) (1)
- Complex loading (1)
- Component assessment (1)
- Composite materials (1)
- Composite pressure vessels (1)
- Composite recycling (1)
- Composite structures (1)
- Composite testing (1)
- Compositionally complex alloy (1)
- Concrete 3D-printing (1)
- Condensed Matter Physics (1)
- Confined catalyst (1)
- Coniophora puteana (1)
- Contact angle (1)
- Contact fatigue (1)
- Contact mechanics (1)
- Contamination (1)
- Cooling rate (1)
- Cooling simulations (1)
- Coordinate measurement machine (1)
- Copper vacancies (1)
- Corrosion and storage (CCUS) technology (1)
- Corrosion costs (1)
- Corrosion mechanism (1)
- Corrosion pits (1)
- Corrosion protection (1)
- Covid-19 (1)
- Cow stress (1)
- Coûts de la corrosion (1)
- Cr2O3 (1)
- CrN/NbN (1)
- Crack arrest (1)
- Crack growth in air (1)
- Crack initiation (1)
- Crack opening displacement (1)
- Cracks (1)
- Craze-crack mechanism (1)
- Craze–crack mechanism (1)
- Creation-relaxation algorithm (1)
- Creep anisotropy (1)
- Creep behaviour (1)
- Creep mechanisms (1)
- Creep strength (1)
- Creep under thermal cycling (1)
- Creep, Creep Rupture, and Stress Rupture (1)
- Creep-fatigue interaction (1)
- Critical energy release rate (1)
- Crop protection formulations (1)
- Cross-sectioning (1)
- Crosslinking (1)
- Cryogenic (1)
- Cryogenic cycling (1)
- Crystal Defects (1)
- Crystal Orientation (1)
- Crystal Plasticity Modelling (1)
- Crystal Texture (1)
- Crystal growth (1)
- Crystal growth velocity (1)
- Crystal lattice (1)
- Crystal lattice period (1)
- Crystal morphology (1)
- Crystalline defects (1)
- Crystallographic texture (1)
- Cubical Iron Oxide (1)
- Cubical shape (1)
- Cupriavidus metallidurans (1)
- Cuttlefish (1)
- Cycle jump (1)
- Cyclic R-Curve (1)
- Cyclic loading (1)
- Cyclic oxidation (1)
- Cyclic steam oxidation (1)
- Cytocompatibility (1)
- D. aging (1)
- D. creep D. viscoelasticity (1)
- DCB geometry (1)
- DED-L (1)
- DIN (1)
- Damage Behavior (1)
- Damage Tolerance (1)
- Damage behavior (1)
- Damage evolution (1)
- Damage mechanisms (1)
- Data Exchange (1)
- Data Integration (1)
- Data Mapping (1)
- Data format (1)
- Data fusion (1)
- Data infrastructures (1)
- Data linking (1)
- Data pipeline (1)
- Data pipeline concept (1)
- Data processing (1)
- Data space (1)
- Data storage (1)
- Data structure (1)
- Datenfusion (1)
- Datenmanagement (1)
- Datenökosystem (1)
- Debonding (1)
- Deep learning (1)
- Defect detection (1)
- Defect population (1)
- Defects engineering (1)
- Defects phase diagram (1)
- Defects thermodynamics (1)
- Deformation (1)
- Deformation behavior (1)
- Deformation mechanisms (1)
- Degradation signatures (1)
- Demonstrators (1)
- Dense phase (1)
- Density-based Model (1)
- Density-based phase-field modelling (1)
- Dental ceramics (1)
- Dentine (1)
- Deposition microstructure (1)
- Design of experiment (1)
- Desorption (1)
- Die casting (1)
- Dielectric Spectroscopy (1)
- Dielectric breakdown strength (1)
- Dielectric characterization (1)
- Diesel Fuel (1)
- Differential scanning calorimetry (1)
- Differential scanning calorimetry (DSC) (1)
- Diffusivity (1)
- Digital Transformation (1)
- Digital Twin (1)
- Digital representations (1)
- Digital workflow (1)
- Digital workflows (1)
- Digitalizations (1)
- Dimensional mismatch of crystalline lattice periods (misfit) (1)
- Directional grain growth (1)
- Discrete element method (1)
- Dislocation avalanches (1)
- Dislocation substructure (1)
- Disordered assemblies (1)
- Disorientation (1)
- Dissimilar metal weld (1)
- Dissolved water (1)
- Distributed fiber optic sensing (1)
- Distributed fiber optic sensors (1)
- Distributed fibre optic sensors (1)
- Diversity (1)
- Domain Ontology Development (1)
- Double notched creep specimen (1)
- Driving physical mechanism (1)
- Droplet (1)
- Druckgasspeicher (1)
- Dry preparation (1)
- Drywood termite (1)
- Dual-energy (1)
- Durchschlagfestigkeit (1)
- Dwell periods (1)
- Dwell times (1)
- Dwell-Fatigue (1)
- Dynamic mechanical analysis (1)
- Dynamic recrystallization (1)
- Dynamisch Mechanische Analyse (1)
- EAC-1A (1)
- EASA (1)
- EC4SafeNano (1)
- EFTEM (1)
- EIS (1)
- EN AW 2618A (1)
- EN AW 2618A a (1)
- EPR (1)
- Early stages (1)
- Early sulfidation (1)
- Efficiency (1)
- Eigenschaften (1)
- Eigenspannung (1)
- Elastic energy (1)
- Elastic properties (1)
- Elctronic Lab Notebook (1)
- Electric conductivity (1)
- Electric field distribution (1)
- Electric field strength (1)
- Electrical insulation (1)
- Electrical insulators (1)
- Electrical resistance (1)
- Electrochemical characterisation (1)
- Electrochemical deposition (1)
- Electrochemical dressing (1)
- Electrochemical impedance spectroscopy (1)
- Electromicroscopy (1)
- Electron Microscopy (1)
- Electron back-scattered diffraction (1)
- Electron backscattered diffraction (1)
- Electron backscattered diffraction (EBSD) (1)
- Electron beam-induced charging (1)
- Electron microscopy, transmission (1)
- Electronic (1)
- Electropolishing (1)
- Elektronisches Laborbuch (ELN) (1)
- Elektrotechnische Grundlagen (1)
- Enamel (1)
- End of life (1)
- Endothelial progenitor cell (1)
- Endurance Limit (1)
- Energiedisersive Röntgenspektroskopie (1)
- Energiespeicherung (1)
- Energiewende (1)
- Energy harvesting (1)
- Energy transition (1)
- Entwicklung (1)
- Environment (1)
- Epitaxial films (1)
- Epoxidharz (1)
- Epoxy Resin (1)
- Epoxy resin (1)
- Equilibrium relaxation (1)
- Ermüdungsriss (1)
- Etching (1)
- European Centre (1)
- Eutectic (1)
- Expanding cavity model (1)
- Experimental and numerical techniques (1)
- Explosionsschutz (1)
- Explosive welding (1)
- Exposed metal sites (1)
- FAIR Data (1)
- FAIR data. (1)
- FAIR principles (1)
- FAIR research data management (1)
- FCH JU (1)
- FIB Tomography (1)
- FNCT (1)
- FSDC (1)
- FT-IR (1)
- Fabrication (1)
- Fabrication method (1)
- Faceting (1)
- Facilitated activation (1)
- Failure mechanisms (1)
- Failure rate (1)
- Failure test (1)
- Faser (1)
- Faser-Kunststoff-Verbund (1)
- Faseroptik (1)
- Faserverstärkte Kunstoffe (1)
- Fatigue Crack Growth (1)
- Fatigue Life Evaluation (1)
- Fatigue Testing (1)
- Fatigue crack propagation (1)
- Fatigue crack propagation stages (1)
- Fatigue fracture (1)
- Fatigue of sandwich structures (1)
- Fatigue striations (1)
- Fe-Mn steels (1)
- Federkonstante (1)
- Feldspar (1)
- Fem (1)
- Female noble prize winners (1)
- Femtosecond laser (1)
- Ferritic Alloys (1)
- Ferritic steels (1)
- Ferritic–martensitic steel (1)
- Ferrous phosphate hydrate (1)
- Fertigungsprozess (1)
- Fertigungstechnologie (1)
- Festigkeit (1)
- Fiber (1)
- Fiber reinforced polymers (1)
- Fiber-matrix interface (1)
- Fiber/matrix bond (1)
- Fibre reinforced plastic (1)
- Fibre/matrix bond (1)
- Fibre/matrix bonding (1)
- Film depositition (1)
- Filters (1)
- Fine Powder (1)
- Finite element method (1)
- Finite elmenet simulation (1)
- Finite-Elemente-Methode (1)
- Finland (1)
- Firing (1)
- First derivative (1)
- First year students (1)
- Flipped classroom (1)
- Flow Coefficient (1)
- Fluorescence spectroscopy (1)
- Fluoride nanoparticles (1)
- Fluorolytic sol−gel (1)
- Focused Ion Beam (1)
- Focussed ion beam growth (1)
- Foliengießen (1)
- Force-distance diagram (1)
- Formerkennung (1)
- Four-point bending test (1)
- Fourier series (1)
- Fourier transform infrared spectroscopy (1)
- Fracture Mechanics (1)
- Fracture behavior (1)
- Fracture surfaces (1)
- Fragility (1)
- Freeze Drying (1)
- Freeze casting (1)
- Fresnoit (1)
- Fresnoite (1)
- Friction (1)
- Friction Stir Welding (1)
- Friction stir processing (1)
- Frozen state photopolymerization (1)
- Fuel sorption (1)
- Full Notch Creep Test (FNCT) (1)
- Full notch creep test (1)
- Full-Notch Creep Test (1)
- Full-notch creep test (1)
- Fullerite (1)
- Functional fatigue (1)
- Fused Filament Fabrication (1)
- GC-MS (1)
- GMR (1)
- GMR sensors (1)
- Gas flow assisted powder deposition (1)
- Gas permeation (1)
- Gas storage (1)
- Gasabgabe (1)
- Gasdetektion (1)
- Gasgehalt (1)
- Gasturbinen (1)
- Gd3+ (1)
- Gefüge (1)
- Gefüge (Werkstoffkunde) (1)
- Gefügeanalyse (1)
- Gefügerekonstruktion (1)
- Gefügeuntersuchung (1)
- Gefügte Nickelbasislegierungen (1)
- General Aviation (1)
- General Chemistry (1)
- General Computer Science (1)
- General Engineering (1)
- Geometrical factors (1)
- Geopolymers (1)
- Gitterfehlpassung (1)
- Glas fibre reinforced polymer (1)
- GlasDigital (1)
- Glasfaserverstärkter Kunststoff (1)
- Glasmatrixkomposit (1)
- Glass Ceramic (1)
- Glass Fibres (1)
- Glass capillaries (1)
- Glass crystallization stress (1)
- Glass fiber reinforced polymer (1)
- Glass fiber-epoxy composites (1)
- Glass fibre (1)
- Glass fibre reinforced plastics (1)
- Glass forming melts (1)
- Glass liner (1)
- Glass manufacturing (1)
- Glass matrix composite (1)
- Glass melt (1)
- Glass melting (1)
- Glass scintillator (1)
- Glass screening device (1)
- Glass structure (1)
- Glass transformation temperature (1)
- Glass-ceramics definition (1)
- Glasses (1)
- Glasspeicher (1)
- Gleichgewicht (1)
- Global stability criterion (1)
- Gnomonic projections (1)
- Gold nanoparticle synthesis (1)
- Grade S960QL steel (1)
- Gradient-enhanced damage (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 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)
- Granulometrie (1)
- Graphic design (1)
- Graphite (1)
- Grenzflächenenergie (1)
- Growth kinetics (1)
- Growth rate (1)
- Grundlagen des Maschinenbaus (1)
- Grünfolieneigenschaften (1)
- Gypsum (1)
- HCF (1)
- HDPE Soprption (1)
- HDPE Sorption (1)
- HV-Insulation (1)
- Hardness test (1)
- Hartbearbeitung (1)
- Hausner ratio (1)
- Heat Treatments (1)
- Heat accumulation (1)
- Heat-resistant nickel alloys (1)
- Heißgasextraktion (1)
- Heißgaskorrosion (1)
- Hertzian cracks (1)
- Hierarchical microstructure (1)
- Hierarchical microstructure Premartensite (1)
- Hierarchical porosities (1)
- High - temperature (1)
- High - temperature corrosion (1)
- High Voltage Insulation (1)
- High alloyed steels (1)
- High cycle fatigue (1)
- High density polyethylene (1)
- High energy radiation (1)
- High entropy superalloys (1)
- High interstitial austenitic steel (1)
- High pressure (1)
- High pressure gas storage (1)
- High temperature nickel-based eutectic alloys (1)
- High temperature oxidation (1)
- High temperatures (1)
- High-Entropy Alloys (1)
- High-Entropy Materials (1)
- High-Temperature Corrosion (1)
- High-density polyethylene (PE-HD) (1)
- High-strength steel (1)
- High-temperature oxidation (1)
- High-temperature properties (1)
- High-voltage testing (1)
- High‐temperature corrosion (1)
- Hipims (1)
- Hochentropielegierung (1)
- Hochentropielegierungen (1)
- Hochleistungskeramik (1)
- Hochspannungsprüfung (1)
- Hochtemperaturbrennstoffzelle (1)
- Hochtemperaturermüdung (1)
- Homogenization (1)
- Honing (1)
- Honing Stone (1)
- Horizon 2020 (1)
- Host-guest hybrid materials (1)
- Hot Press (1)
- Hot isostatic pressing (1)
- Hot isostatic pressing (HIP) (1)
- Hybrid Manufacturing (1)
- Hydrogel (1)
- Hydrogen diffusivity (1)
- Hydrogen gas (1)
- Hydrogen permeability (1)
- Hydrogen sensor (1)
- Hydrogen sensors (1)
- Hydrogen storage (1)
- Hydrogen storage tank (1)
- Hydrothermal Ageging (1)
- Hydrous glass (1)
- Hygrothermal (1)
- Hyper-arid (1)
- IASCC (1)
- IN738LC (1)
- IR spectroscopy (1)
- Imaging (1)
- Impact damage (1)
- Impact wear (1)
- Implant failures (1)
- Implants (1)
- In situ diffraction (1)
- In situ synthesis (1)
- In situ thermal-annealing experiment (1)
- In-Situ Testing (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-situ tomography (1)
- In-vivo (1)
- In718 (1)
- Incipient plasticity (1)
- Inclusion cluster (1)
- Inclusion size (1)
- Inconel 686 coating (1)
- Incremental lifetime models (1)
- Indentation (1)
- Indentation fracture toughness (1)
- Indentation hardness (1)
- Industrial and Manufacturing Engineering (1)
- Informationstechnische Grundlagen (1)
- Infrared nano AFM (1)
- Initial attachment (1)
- Inkjet (1)
- Inter layer time (1)
- Interdiffusion (1)
- Interface Strength (1)
- Interfacial Spinodal (1)
- Interfacial Strength (1)
- Interfacial anisotropy (1)
- Interfacial free energy (1)
- Interlaboratory comparability (1)
- Intermediate scale (1)
- Intermetallic (1)
- Intermetallische FeAl-Legierungen (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)
- Inverse ostwald ripening (1)
- Investment casting (1)
- Ion beam erosion Sectioning (1)
- Iron meteorite (1)
- Iron oxide (1)
- Irradiation (1)
- Irregular topography (1)
- Isostatic hot pressing (HIP) (1)
- JMAK model (1)
- Joints/joining (1)
- KCl (1)
- KI (1)
- Kalzinierung (1)
- Kennwertermittlung (1)
- Keramische Folien (1)
- Kernel average misorientation (1)
- Keywords: Poly(ether ether ketone) (1)
- Kikuchi bands (1)
- Klebung (1)
- Knowledge Graphs (1)
- Knowledge graphs (1)
- Knowledge representation (1)
- Komponentenprüfung (1)
- Kreislaufwirtschaft (1)
- Kriechermüdung (1)
- Kriechversuche (1)
- Kristallisation (1)
- Kristallorientierung (1)
- Kristallsystem (1)
- Kunststoffe (1)
- Kupfer (1)
- Kurzfaser-verstärkte Thermoplaste (1)
- Kurzzeitfestigkeit (1)
- L-PBF 316L (1)
- LIBS (1)
- LMD (1)
- LSD print (1)
- LTCC multilayer (1)
- Laboratory X-ray diffraction (1)
- Laminographie (1)
- Langzeitstabilität (1)
- Laser Beam Melting (1)
- Laser Cladding (1)
- Laser Poeder Bed Fusion (1)
- Laser Powder Bed Fusion (LPBF) (1)
- Laser Scanning Microscopy (1)
- Laser Scanning Microscopy (LSM) (1)
- Laser beam melting (LBM) (1)
- Laser curing (1)
- Laser induced slipcasting (1)
- Laser light scattering (1)
- Laser powder-based directed energy deposition (1)
- Laser-Pulverbettschmelzen (1)
- Laser-induced slip casting (1)
- Laserbearbeitung (1)
- Laserscanningmikroskopie (LSM) (1)
- Lattice distortions (1)
- Lattice parameter determination (1)
- Lattice point density (1)
- Lattice rotation (1)
- Lattice structures (1)
- Lattices (1)
- Laves phase (1)
- Layer depostion (1)
- Layer system (1)
- Layered manganese oxide (1)
- Layering misalignment (1)
- Lebensdauervorhersage (1)
- Lecture films (1)
- Lecture videos (1)
- Legierung mit komplexer Zusammensetzung (1)
- Lehrfilm (1)
- Lehrfilmformate (1)
- Life cycle (1)
- Lifetime prediction (1)
- Light curing (1)
- Lightweighting (1)
- Limestone Filler (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)
- Lithium-ion batteries (1)
- Lithography-based technologies (1)
- Local landscape evolution (1)
- Localized plasmons (1)
- Log-normal distribution (1)
- Long-term aging (1)
- Long-term calculation (1)
- Low Cycle Fatigue (LCF) (1)
- Low carbon steel (1)
- Low expansion (1)
- Low strain (1)
- Low-Cycle Fatigue (LCF) (1)
- Low-Cycle-Fatigue (1)
- Low-cycle fatigue (1)
- Low-cycle fatigue. (1)
- Low-cycle-fatigue behaviour (1)
- Low-loading (1)
- Lösungsmittel (1)
- Lötverbindung (1)
- MGS-1 regolith simulant (1)
- MOF-74 (1)
- Machine learning (1)
- Magmatic and hydrothermal processes (1)
- Magnetic domain distribution (1)
- Magnetic domains (1)
- Magnetic shape memory (1)
- Magnetic stray field (1)
- Magnetic stray fields (1)
- Magnetische Domänen (1)
- Magnetoelastic effect (1)
- Magnetoelastischer Effekt (1)
- Magnetomechanical effect (1)
- Martensitic steel (1)
- Martensitic steels (1)
- Martensitic structure (1)
- Master curve (1)
- Masterschädigungslinie (1)
- Mat-o-lab (1)
- Material Life Cycle (1)
- Material characterization (1)
- Material defects (1)
- Material failure (1)
- Material modeling (1)
- Material oxidation (1)
- MaterialDigital (1)
- Materialcharakterisierung (1)
- Materialentwicklung (1)
- Materialkreislauf (1)
- Materialmodell (1)
- Materialprüfung (1)
- Materials Chemistry (1)
- Materials Data Space (1)
- Materials Science (1)
- Materials Testing (1)
- Materials and Processes Data Reusability (1)
- Materials informatics (1)
- Materials science and engineering (1)
- Materials testing (1)
- Materialwissenschaft (1)
- Mathematisch-naturwissenschaftliche Grundlagen (1)
- Matrix (1)
- Matrix residual stress (1)
- Mean atomic number (1)
- Mean-field modelling (1)
- Mechanical Behavior (1)
- Mechanical Properties (1)
- Mechanical and thermal testing (1)
- Mechanical anisotropy (1)
- Mechanical deformation (1)
- Mechanisches Verhalten (1)
- Mechanistic Modelling (1)
- Medium entopy alloy (1)
- Medium entropy alloy (1)
- Medium entropy alloys (1)
- Medium-entropy alloy (1)
- Mehrachsige Verformung (1)
- Mehrskalenmodell (1)
- Melting (1)
- Meta material (1)
- Metal Magnetic Memory (1)
- Metal additive manufacturing (1)
- Metal and alloys (1)
- Metal magnetic memory (1)
- Metal powder characterization (1)
- Metall (1)
- Metallic Glass (1)
- Metallic components (1)
- Metallic materials (1)
- Metallic silver precipitates (1)
- Metallography (1)
- Metals and Alloys (1)
- Metformin (1)
- Methodology (1)
- Metrologie (1)
- Metrology (1)
- Micro computed tomography (1)
- Microbiologically influenced corrosion (1)
- Micromanipulation (1)
- Microplastic stress (1)
- Microsegregation (1)
- Microspine (1)
- Microstructur (1)
- Microstructural changes of a Fe Si alloy (1)
- Microstructural orientation (1)
- Microstructure Analysis (1)
- Microstructure Characterization (1)
- Microstructure Evolution (1)
- Microstructure characterisation (1)
- Microstructure design (1)
- Microstructure modification (1)
- Microstructure, γ/γ' misfit (1)
- Microstrucure reconstruction (1)
- Microwave technology (1)
- Mid-Level Ontology for MSE (1)
- Mikro-Computertomographie (1)
- Mikrogravitation (1)
- Mikrostrukturuntersuchung (1)
- Milling (1)
- Mindedestberstdruck (1)
- Mini-UAV (1)
- Miniature specimens (1)
- Mis-match (1)
- Misfitting precipitate (1)
- Misorientation (1)
- Missing acknowledgment (1)
- Mixed conductors (1)
- Mixed-linkers (1)
- Mn-oxides (1)
- Mn3O4 (1)
- Model (1)
- Model alloy (1)
- Modell (1)
- Moisture (1)
- Molecular Dynamics (1)
- Molten salt (1)
- Monte-Carlo-Analysis (1)
- Moon (1)
- Mortar (1)
- Mortel (1)
- Multi-principal element alloys (1)
- Multiaxial stress state (1)
- Multilayer ceramic technology (1)
- Multilayers (1)
- Multiple cracks (1)
- NFDI-MatWerk (1)
- NGS (1)
- NIST (1)
- NMR (1)
- Nahinfrarotspektroskopie (1)
- Nano CRM (1)
- Nano material (1)
- Nano metal fluorides (1)
- Nano-assemblies (1)
- Nano-ceramic-additive-manufacturing photoresin (1)
- Nano-composite (1)
- Nano-landscape (1)
- Nano-powder characterization (1)
- Nano-safety (1)
- Nano-scratch test (1)
- NanoCAM (1)
- Nanocomposites (1)
- Nanocrystalline alloys (1)
- Nanocrystalline structure (1)
- Nanoelectromechanical systems (NEMS) (1)
- Nanomaterial screening (1)
- Nanoparticle structure (1)
- Nanoparticle synthesis (1)
- Nanopartikel (1)
- Nanoplattform (1)
- Nanopowder (1)
- Nanoribbons (1)
- Nanoscale multilayers (1)
- Nanostructure (1)
- Natural (1)
- Natural silver wires (1)
- Nb3Sn (1)
- Near Infrared Spectroscopy (1)
- Negative charged microparticle (1)
- Net zero (1)
- Networking (1)
- New standards (1)
- Ni-Mn-Ga (1)
- NiMaGa (1)
- NiTi (1)
- Nickel based coatings (1)
- Nickel-base superalloy (1)
- Nimonic 75 (1)
- Nitride (1)
- Noble metal nanoparticles (1)
- Non-Destructive Testing (1)
- Non-desired foaming (1)
- Non-destructive Materials (1)
- Non-metallic inclusions (1)
- Non-serrated inhomogeneous flow (1)
- Nondestructive testing (1)
- Notch (1)
- Nucleation mode (1)
- Nucleation tendency (1)
- Number density (1)
- Numerische Simulation (1)
- Nydrogen melting (1)
- OECD TG (1)
- Oberflächenaktive wässrige Medien (1)
- Oberflächenkeimbildung (1)
- Online (1)
- Online Process Monitoring (1)
- Online quality control (1)
- Online teaching (1)
- Ooxidation (1)
- Optic (1)
- Optical and Magnetic Materials (1)
- Optical backscatter reflectometry (1)
- Optical centrifugation (1)
- Optical criterion (1)
- Optical criterion of brittleness (1)
- Optical fibre (1)
- Optical properties (1)
- Optical properties of glasses and ceramics (1)
- Optical spectroscopy (1)
- Optical tweezers (1)
- Ordered/disordered structures (1)
- Ordering (1)
- Orientation refinement (1)
- Orientation relationship (1)
- Orientation-dependent microstructure (1)
- Orowan Mechanism (1)
- Osteogenesis (1)
- Overaging (1)
- Oxidation protection (1)
- Oxide (1)
- Oxide coatings (1)
- Oxide glass (1)
- Oxide scale (1)
- Oxides (1)
- Oxygen evolution reaction (1)
- P92 steels (1)
- PA6.6 (1)
- PE-HD Sorption (1)
- PLS-DA (1)
- PPA (1)
- PV modules (1)
- Packaging (1)
- Parabolic flight (1)
- Particle Size Distribution (1)
- Particle size determination (1)
- Particle-bed binder jetting (1)
- Partikelgröße (1)
- Passive components and circuits (1)
- Patent (1)
- Peem (1)
- Permittivity reduction (1)
- Persistent luminescence (1)
- Persistent luminescent (1)
- Phase Diagram (1)
- Phase Diagrams (1)
- Phase Separation (1)
- Phase analysis (1)
- Phase field crystal (1)
- Phase field method (1)
- Phase field model (1)
- Phase field simulation (1)
- Phase stability (1)
- Phase-Field Simulation (1)
- Phase-field Simulation (1)
- Phase-field model (1)
- Phase-field modelling (1)
- Phosphate (1)
- Phosphors (1)
- Photocatalysis (1)
- Photocleavable organosilanes (1)
- Photodynamic therapy (1)
- Photopolymer composites (1)
- Phototrophs (1)
- Photovoltaic modules (1)
- Physical aging (1)
- Physical properties (1)
- Physically based material model (1)
- Physics-informed Neural Network (1)
- Phytolith (1)
- Pitting corrosion (1)
- Planetary surface (1)
- Plasma imaging (1)
- Plasma nanocoatings (1)
- Plasma spray (1)
- Plasmon enhancement (1)
- Platform Material Digital (1)
- Platform Material Digital (PMD) (1)
- Platform MaterialDigital (1)
- Platform MaterialDigital (PMD) (1)
- Platinum-group-metals (1)
- Plattform Material Digital (PMD) (1)
- Pole figures (1)
- Polymer Matrix Composite (1)
- Polymer analysis/characterization (1)
- Polymer composite (1)
- Polymer-Ceramic-Composite (1)
- Polymer-ceramic mixtures (1)
- Polymer-matrix composites (PMC) (1)
- Polymeric Materials (1)
- Polymerwissenschaften (1)
- Polymer–matrix composites (1)
- Polyolefins (1)
- Polypropylene (1)
- Polystyrene (1)
- Polyurethane (1)
- Pore (1)
- Porosification (1)
- Porous materials (1)
- Portfolio (1)
- Positron annihilation spectroscopy (1)
- Powder bed additive manufacturing (1)
- Powder bed density (1)
- Powder deposition (1)
- Powder diffraction (1)
- Powder flow (1)
- Powder processing (1)
- Powder rheology (1)
- Powder-based processes (1)
- Powdered activated carbon (1)
- Power factor (1)
- Power law (1)
- Power plant (1)
- Power-to-Gas (1)
- Precipitate shape (1)
- Precipitates (1)
- Precipitation Analysis (1)
- Precipitation hardening (1)
- Preparation (1)
- Preventive strategies (1)
- Principal stress (1)
- Principal stress components (1)
- Printing (1)
- ProMoAM (1)
- Process (1)
- Process Monitoring (1)
- Process development (1)
- Processing window (1)
- Production scatter (1)
- Proficiency test (1)
- Projection center (1)
- Projekt AGIL - Alterung additiv gefertigter metallischer Materialien und Komponenten (1)
- Properties (1)
- Property simulation (1)
- Protection (1)
- Prozessmonitoring (1)
- Pseudosymmetry (1)
- Pull-out (1)
- Pull-out composite materials (1)
- Pultruded fiber rods (1)
- Pycnometry (1)
- Quality assurance (1)
- Quantitative Precipitation Analysis (1)
- Quantitative image analysis (1)
- Quantum dots (1)
- Radiation-matter interaction (1)
- Radii distribution (1)
- Radon transform (1)
- Rafting (1)
- Raman (1)
- Reaction Sintering (1)
- Real time growth control (1)
- Real-time deformation (1)
- Real-time qPCR (1)
- Reference Data (1)
- Reference Dataset (1)
- Reference Material (1)
- Reference material BCR-425 (1)
- Reference nanomaterials (1)
- Reference nanoparticles (1)
- Referenzmaterial (1)
- Referenzorganismus (1)
- Referenzverfahren (1)
- Refractory alloy (1)
- Refractory chemically complex alloy (1)
- Refractory chemically complex alloys (1)
- Refractory superalloys (1)
- Regelwerke (1)
- Regolith (1)
- Reheating (1)
- Rejuvenation (1)
- Relaxation fatigue (1)
- Relaxation metallic glasses (1)
- Relaxation tests (1)
- Relaxationsphänomene (1)
- Reliability (1)
- Reliable characterization (1)
- Renewable ernergy (1)
- Repair of sandwich shell structures (1)
- Repair patch (1)
- Residual strains (1)
- Residual stress analysis (1)
- Resistance (1)
- Resistance spot welding (1)
- Resistance stress (1)
- Resonance testing (1)
- Restberstfestigkeit (1)
- Reusability (1)
- Reusable data (1)
- Rheology (1)
- Rhodonia placenta (1)
- Risikoanalyse (1)
- Rissausbreitung (1)
- Risse (1)
- Rissform (1)
- Rissfortschritt (1)
- Rissheilung (1)
- Rissverlauf (1)
- Robot-assisted galss melting (1)
- Robotic glass melting (1)
- Rohrprobekörper (1)
- Rotorblatt (1)
- Rotorblätter (1)
- Round Robin (1)
- SDC (1)
- SEM micrography (1)
- SEM wood characterization (1)
- SEN-Probe (1)
- SHM (1)
- SO2 (1)
- STEM (1)
- Safety (1)
- Sailplane Development Panel (1)
- Sall-angle scattering (1)
- Salt melt (1)
- Salzschmelzen (1)
- Samarium doped ceria (1)
- Sample holder (1)
- Sand blasting (1)
- Sandwich structures (1)
- Sandwichstruktur (1)
- Scaffold (1)
- Scaffold geometry (1)
- Scaffolds (1)
- Scale-dependent behavior (1)
- Scan strategies (1)
- Scanning Electron Microscopy (SEM) (1)
- Scanning acoustic microscopy (SAM) (1)
- Scanning electron microscope (1)
- Scanning electron microscopy (SEM) (1)
- Scarf joint (1)
- Scarf joint repair (1)
- Scarf joint repairs (1)
- Scavenging effect of iron (1)
- Schadenskunde (1)
- Schalenprüfstand (1)
- Schlickerdeposition (1)
- SchwarzP cells (1)
- Schwerelosigkeit (1)
- Schwingbrüche (1)
- Scratches (1)
- Screen printing (1)
- Screening method (1)
- Segregation (1)
- Segregation Engineering (1)
- Segregation engineering (1)
- Selective laser melting (SLM) (1)
- Self-Assembly (1)
- Self-organization (1)
- Semantic Data Integration (1)
- Semantic Interioerability (1)
- Semantic Web technologies (1)
- Semantic data integration (1)
- Semantic interoperability (1)
- Semantic structuring (1)
- Semantische Daten (1)
- Semiconductor materials (1)
- Sensing (1)
- Sensor (1)
- Serial sectioning (1)
- Serienschnitte (1)
- Sewage treatment plant (1)
- Shadowgraphy (1)
- Shape memory alloy (1)
- Shape memory alloys (1)
- Shear (1)
- Shear load (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)
- Silber (1)
- Silicate glass (1)
- Silicate glass-ceramics (1)
- Silicatglas (1)
- Silicoborate glasses (1)
- Silicon release (1)
- Silikatkeramik (1)
- Silver (1)
- Silver cluster (1)
- Silver glass paste (1)
- Silver precipitates (1)
- Silver-glass metallization paste (1)
- Simulation workflow (1)
- Simulationsgestützte Gießkonzepte (1)
- Single crystal Ni-Base superalloys (1)
- Single crystal superalloys (1)
- Single fiber pull-out test (1)
- Single-crystal (1)
- Sinter retardation (1)
- Sintering additive (1)
- Sintering atmosphere (1)
- Sintermechanismen (1)
- Sintertemperatur (1)
- Sinterung (1)
- Sinus floor augmentation (1)
- Size (1)
- Size and size distribution (1)
- Size effect (1)
- Sliding simulation (1)
- Slip localization (1)
- Slip-rolling (1)
- Slow Crack Growth (SCG) (1)
- Slurry optimization (1)
- Small angle x-ray scattering (1)
- Small-Angle X-ray Scattering (1)
- Small-scale (1)
- Smart materials (1)
- Smectite (1)
- Soda lime silicate glass (1)
- Soda-lime-silica (1)
- Sodium ion batteries (1)
- Sodium zinc borate glass (1)
- Sodiumborosilicate glasses (1)
- Softening temperature (1)
- Soil (1)
- Soil sample (1)
- Solar panels (1)
- Solid solution strengthening (1)
- Solid-State-Synthesis (1)
- Solid-state-synthesis (1)
- Solidification (1)
- Space exploration (1)
- Spar cap design (1)
- Spark plasma sintering (1)
- Specific surface (1)
- Specimen geometry (1)
- Spezifische Oberfläche (1)
- Spinodal Decomposition (1)
- Spinodal decomposition (1)
- Split Hopkinson bar (1)
- Split-vacancy defect complexes (1)
- Spring constant (1)
- Stable crack growth (1)
- Standardisation (1)
- Stanzen (1)
- Statistics (1)
- Steam oxidation resistance (1)
- Steel P92 (1)
- Steel alloy (1)
- Stereoscopy (1)
- Strain (1)
- Strain difference (1)
- Strain energy (1)
- Strain rate dependence (1)
- Stratégies deprévention (1)
- Stress distribution (1)
- Stress intensity (1)
- Stress-corrosion (1)
- Stress-strain behavior (1)
- Stress-strain-behavior (1)
- Streuung (1)
- Structural composites (1)
- Structural defects (1)
- Structural dynamics (1)
- Structural health monitoring (1)
- Structural health monitoring (SHM) (1)
- Structure (1)
- Structure property correlations (1)
- Structure-property correlation (1)
- Structured Data (1)
- Structured heating (1)
- Subcritical crack growth (1)
- Subsurface defects (1)
- Superaustenite steel (1)
- Supercritical/dense phase CO 2 (1)
- Superelasticity (1)
- Superlattice extrinsic stacking faults (1)
- Superlegierungen (1)
- Supersaturation (1)
- Support configurations (1)
- Support vector machines (1)
- Surface Nucleation (1)
- Surface elasticity (1)
- Surface modification (1)
- Surface roughness (1)
- Surface stress (1)
- Surface-induced Melting (1)
- Swept wavelength interferometry (1)
- Swept wavelength interferometry (SWI) (1)
- Symbolik (1)
- Synchrotron (1)
- Synchrotron CT (1)
- Synchrotron X-ray diffraction (1)
- Synchrotron micro-tomography (1)
- Synchrotron radiation (1)
- Synchrotron radiations (1)
- Synchrotron tomography (1)
- Synthesis (1)
- Systematische Schadensanalysen, Prozeduren (1)
- T1 precipitate (1)
- TAHYA (1)
- TED (1)
- TIG-welding (1)
- TMF experiments (1)
- Tb3+ (1)
- Technical Ceramics (1)
- Technische Keramik (1)
- Temperature dependence (1)
- Temperature driven process (1)
- Tempered martensite ferritic steel (1)
- Tempered martensite ferritic steels (1)
- Tensile strength (1)
- Tensile stress relaxation (1)
- Tensile stress relaxation testing (1)
- Tensile tests (1)
- Termites (1)
- Test Improvement (1)
- Tetragonal distortion (1)
- Tetragonality (1)
- Texturation (1)
- Theranostics (1)
- Thermal Cycling (1)
- Thermal cycling (1)
- Thermal degradation (1)
- Thermal desorption mass spectrometry (1)
- Thermal stress (1)
- Thermische Analyse (1)
- Thermo mechanical fatigue (1)
- Thermo-mechanical fatigue (1)
- Thermo-mechanical loading (1)
- Thermo-mechanical-loading (1)
- Thermo-mechanics (1)
- Thermo-optical measurement (1)
- Thermoanalysis (1)
- Thermoanalytical Methods (1)
- Thermobimetal (1)
- Thermodynamic analysis (1)
- Thermodynamic stability (1)
- Thermodynamische Stabilität (1)
- Thermoelectric generator (1)
- Thermoelectric generator design (1)
- Thermoelektrika (1)
- Thermoelektrischer Generator (1)
- Thermogravimetric analysis (1)
- Thermomechanical Fatigue (TMF) (1)
- Thermomechanische Eigenschaften (1)
- Thermomechanische Ermüdung (1)
- Thermophysikalische Eigenschaften (1)
- Thermoplastic forming (1)
- Thermoplastic matrix (1)
- Thermoplastic prepreg (1)
- Thermoset composition (1)
- Thermosetting resin (1)
- Thesaurus (1)
- Thickening (1)
- Thin films (1)
- Thin tribofilm (1)
- Thiol-ene click chemistry (1)
- Three-dimensional Bone tissue engineering (1)
- Three-dimensional tomographies (1)
- Time-offlight Diffraction (TOFD) (1)
- Tomography (1)
- Tools (1)
- Tooth wear (1)
- Transducers (1)
- Transformer (1)
- Transmission Kikuchi diffraction (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 adsorption (1)
- Two-photon polymerization (1)
- Two-photon-polymerization (1)
- Ultraschall (1)
- Ultrasonic Testing (1)
- Ultrasonic assited machining (1)
- Umgebungsbedingter Spannungsriss (1)
- Ungleichgewicht (1)
- Unidirectional composites (1)
- Unlegierter Baustahl (1)
- Upconversion nanoparticles (1)
- VCSEL (1)
- VM12 SHC (1)
- Vacancies (1)
- Vacuum hot extraction (1)
- Verbundwerkstoff (1)
- Verbundwerkstoffe (1)
- Vernetzung (1)
- Versetzungsstrukturen (1)
- Very high cycle fatigue (1)
- Vickers Hardness (1)
- Virtueller Materialdatenraum (1)
- Viscoelastic model (1)
- Viscose sintering (1)
- Viskoplastisch (1)
- Visual ontology development (1)
- Visualization (1)
- Vivianite (1)
- Vocabulary providers (1)
- Volatiles from thermosets (1)
- Volume Fraction (1)
- Volume changes (1)
- Volume fraction (1)
- WAXS (1)
- Wasserstoff (1)
- Wasserstofferzeugung (1)
- Waste water (1)
- Water (1)
- Water Diffusion (1)
- Water droplet erosion resistance (1)
- Water in glass (1)
- Welding processing influences (1)
- Werkstoffauswahl (1)
- Werkstoffdaten (1)
- Werkstoffkennwerte (1)
- Werkstoffmechanische Prüfung (1)
- Wet chemical etching (1)
- Wet dispersion (1)
- White light emitters (1)
- Wind turbine blade shell structures (1)
- Windkraft (1)
- Withstand voltage tests (1)
- Women in science (1)
- Work of adhesion (1)
- Workshop (1)
- Wärmespeicher (1)
- X-ray Diffraction (1)
- X-ray diffraction analysis (1)
- X-ray imaging (1)
- X-ray refractography (1)
- X-ray scattering (1)
- X-ray tomographic (1)
- X-ray-diffraction (1)
- XPCS (1)
- XRM (1)
- Young`s modulus (1)
- Young´s Modulus (1)
- Young´s modulus (1)
- Young’s Modulus (1)
- Yttria stabilized zirconia (1)
- ZfP (1)
- Zinc oxide (1)
- Zirconia-toughened alumina (1)
- Zirconia: yttria stabilized (1)
- ZnO (1)
- Zug-Druck-Schubprüfung (1)
- Zugversuchsontologie (1)
- Zyklische Belastung (1)
- Zyklische R-Kurve (1)
- alumina (1)
- arbidic austempered ductile iron (1)
- arbon capture (1)
- ausfgallfreie Lastwechsel (1)
- battery aging mechanism (1)
- bioactive (1)
- biomaterials (1)
- bone (1)
- carbon steel (1)
- ceramic (1)
- ceramics (1)
- coarsening (1)
- condensate (1)
- current collector corrosion (1)
- dental (1)
- depth profiles (1)
- dispersion (1)
- electrochemical characterization (1)
- electron microscopy (1)
- hardness (1)
- high entropy alloys (1)
- high pressure (1)
- hydrogen storage (1)
- impurities (1)
- in-situ synthesis (1)
- infrared spectroscopy (1)
- laser cladding (1)
- microstructural changes (1)
- microstructure analysis (1)
- multi scale testing (1)
- negative crystal growth (1)
- oxidation (1)
- particle size determination (1)
- phosphate glasses (1)
- pitting corrosion (1)
- sample preparation (1)
- scanning electron microscopy (1)
- selective laser melting (1)
- statistische Auswertung (1)
- sulfidation (1)
- thermomechanische Beanspruchung (1)
- utilization, and storage (CCUS) technology (1)
- volume resistivity (1)
- water speciation (1)
- zertifizierte Referenzmaterialien (1)
- Überblick (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 (1137)
- 5.1 Mikrostruktur Design und Degradation (338)
- 5.2 Metallische Hochtemperaturwerkstoffe (277)
- 5.4 Multimateriale Fertigungsprozesse (216)
- 5.6 Glas (151)
- 5.3 Polymere Verbundwerkstoffe (131)
- 5.5 Materialmodellierung (115)
- 8 Zerstörungsfreie Prüfung (107)
- 9 Komponentensicherheit (98)
- 7 Bauwerkssicherheit (91)
Paper des Monats
- ja (11)
Additive manufacturing of metals – and in particular building with laser-based powder bed fusion – is highly flexible and allows high-resolution features and feedstock savings. Meanwhile, though space stations in low Earth orbit are established, a set of visits to the Moon have been performed, and humankind can send out rovers to explore Venus and Mars, none of these milestone missions is equipped with technology to manufacture functional metallic parts or tools in space. In order to advance space exploration to long-term missions beyond low Earth orbit, it will be crucial to develop and employ technology for in-space manufacturing (ISM) and in-situ resource utilisation (ISRU). To use the advantages of laser-based powder bed fusion in these endeavours, the challenge of powder handling in microgravity must be met. Here we present a device capable of building parts using metallic powders in microgravity. This was proven on several sounding rocket flights, on which occasions Zr-based metallic glass parts produced by additive manufacturing in space were built. The findings of this work demonstrate that building parts using powder feedstock, which is more compact to transport into space than wire, is possible in microgravity environments. This thus significantly advances ISRU and ISM and paves the way for future tests in prolonged microgravity settings.
Objectives
The aim of the study was to investigate the impact of organic additives (binder, plasticizer, and the cross-linking ink) in the formulation of water-based feedstocks on the properties of a dental feldspathic glass-ceramic material developed for the slurry-based additive manufacturing technology “LSD-print.”
Material and methods
Three water-based feldspathic feedstocks were produced to study the effects of polyvinyl alcohol (AC1) and poly (sodium 4-styrenesulfonate) (AC2) as binder systems. A feedstock without organic additives was tested as the control group (CG). Disc-shaped (n = 15) and bar (n = 7) specimens were slip-cast and characterized in the green and fired states. In the green state, density and flexural strength were measured. In the fired state, density, shrinkage, flexural strength (FS), Weibull modulus, fracture toughness (KIC), Martens parameters, and microstructure were analyzed. Disc-shaped and bar specimens were also cut from commercially available CAD/CAM blocks and used as a target reference (TR) for the fired state.
Results
In the green state, CG showed the highest bulk density but the lowest FS, while the highest FS in the green state was achieved with the addition of a cross-linking ink. After firing, no significant differences in density and a similar microstructure were observed for all slip-cast groups, indicating that almost complete densification could be achieved. The CAD/CAM specimens showed the highest mean FS, Weibull modulus, and KIC, with significant differences between some of the slip-cast groups.
Significance
These results suggest that the investigated feedstocks are promising candidates for the slurry-based additive manufacturing of restorations meeting the class 1a requirements according to DIN EN ISO 6871:2019–01.
In this work we instigated the fragmentation of Au microparticles supported on a thin amorphous carbon film by irradiating them with a gradually convergent electron beam inside the Transmission Electron Microscope. This phenomenon has been generically labeled as “electron beam-induced fragmentation” or EBIF and its physical origin remains contested. On the one hand, EBIF has been primarily characterized as a consequence of beam-induced heating. On the other, EBIF has been attributed to beam-induced charging eventually leading to Coulomb explosion. To test the feasibility of the charging framework for EBIF, we instigated the fragmentation of Au particles under two different experimental conditions. First, with the magnetic objective lens of the microscope operating at full capacity, i.e. background magnetic field B = 2 T, and with the magnetic objective lens switched off (Lorenz mode), i.e. B = 0 T. We observe that the presence or absence of the magnetic field noticeably affects the critical current density at which EBIF occurs. This strongly suggests that magnetic field effects play a crucial role in instigating EBIF on the microparticles. The dependence of the value of the critical current density on the absence or presence of an ambient magnetic field cannot be accounted for by the beam-induced heating model. Consequently, this work presents robust experimental evidence suggesting that Coulomb explosion driven by electrostatic charging is the root cause of EBIF.
In this work we instigated the fragmentation of Au microparticles supported on a thin amorphous carbon film by irradiating them with a gradually convergent electron beam inside the Transmission Electron Microscope. This phenomenon has been generically labeled as ‘‘electron beam-induced fragmentation’’ or EBIF and its physical origin remains contested. On the one hand, EBIF has been primarily characterized as a consequence of beam-induced heating. On the other, EBIF has been attributed to beam-induced charging eventually leading to Coulomb explosion. To test the feasibility of the charging framework for EBIF, we instigated the fragmentation of Au particles under two different experimental conditions. First, with the magnetic objective lens of the microscope operating at full capacity, i.e. background magnetic field 𝐵 = 2 T, and with the magnetic objective lens switched off (Lorenz mode), i.e. 𝐵 = 0 T. We observe that the presence or absence of the magnetic field noticeably affects the critical current density at which EBIF occurs. This strongly suggests that magnetic field effects play a crucial role in instigating EBIF on the microparticles. The dependence of the value of the critical current density on the absence or presence of an ambient magnetic field cannot be accounted for by the beam-induced heating model. Consequently, this work presents robust experimental evidence suggesting that Coulomb explosion driven by electrostatic charging is the root cause of EBIF.
Es wird eine Studie zur Charakterisierung eines anisotropen Stahls vorgestellt, bei der Ultraschalluntersuchungen mit Mikrostrukturanalysen verbunden werden. Das Material weist hohe Festigkeit und Korrosionsbeständigkeit auf, zugleich ist mit anisotropen Eigenschaften die mechanischen und betrieblichen Eigenschaften beeinflussen zu rechnen. Vorläufige Ergebnisse lassen vermuten, dass weitere Untersuchungen notwendig sind, um die Fähigkeiten und Grenzen des Materials genau zu bestimmen. Es wird ein systematischer Ansatz mit Array- Prüfköpfen, Time-of-Flight Diffraction (TOFD) Technik und mikrostrukturellen Untersuchungen angewendet, um die Wechselwirkung zwischen Anisotropie und Mikrostruktur des Stahls zu analysieren. Ultraschallprüfungen mit der TOFD-Technik und in Tauchtechnik liefern Einblicke in das anisotrope Verhalten des Werkstoffes, einschließlich entsprechenden Kornorientierung, Dämpfung und Schallgeschwindigkeitsvariation. Diese Messungen führen in Verbindung mit mikrostrukturellen Analysen zu einem tieferen Verständnis des Materialverhaltens. Unser Hauptziel ist es, ein Framework zu erstellen, welches die Ultraschallantwort anisotroper Materialien mit ihren mikroskopischen Struktureigenschaften verbindet. Die vorgestellte Methodik ermöglicht eine zerstörungsfreie und zügige Bewertung der Materialintegrität, was besonders bei der Anwendung von Hochleistungsmaterialien relevant ist. Durch diesen integrativen Ansatz werden verschiedener Charakterisierungsmethoden kombiniert, um ein umfassenderes Materialverständnis zu erreichen.
Today’s industrial demands challenge the research and development sector to make advances in the design and properties of materials that can withstand harsh environments. The AlMo0.5NbTa0.5TiZr refractory high-entropy superalloy (RSA), with a remarkable morphological similarity to the γ/γ' microstructure of Ni-based superalloys and promising high-temperature compressive properties, has been considered as a candidate for structural applications. However, additional properties need to be investigated in order to assess the suitability of this alloy for high temperature applications. Therefore, this work investigates the thermodynamic and microstructural stabilities of the RSA at room temperature and between 900 and 1100 °C, and their influence on the mechanical properties. Although it is possible to improve the mechanical properties at 20 °C by tuning the cooling rate, long-term high temperature exposures lead to phase instabilities that negatively influence the creep behavior.
This research deals with the development of the Vickers hardness knowledge graph, mapping the example dataset in them, and exporting the data-mapped knowledge graph as a machine-readable Resource Description Framework (RDF). Modeling the knowledge graph according to the standardized test procedure and using the appropriate upper-level ontologies were taken into consideration to develop the highly standardized, incorporable, and industrial applicable models. Furthermore, the Ontopanel approach was utilized for mapping the real experimental data in the developed knowledge graphs and the resulting RDF files were successfully evaluated through the SPARQL queries.
This study aims to represent an approach for transferring the materials testing datasets to the digital schema that meets the prerequisites of the semantic web. As a use case, the tensile stress relaxation testing method was evaluated and the testing datasets for several copper alloys were prepared. The tensile stress relaxation testing ontology (TSRTO) was modeled following the test standard requirements and by utilizing the appropriate upper-level ontologies. Eventually, mapping the testing datasets into the knowledge graph and converting the data-mapped graphs to the machine-readable Resource Description Framework (RDF) schema led to the preparation of the digital version of testing data which can be efficiently queried on the web.
AbstractThis study applies Semantic Web technologies to advance Materials Science and Engineering (MSE) through the integration of diverse datasets. Focusing on a 2000 series age-hardenable aluminum alloy, we correlate mechanical and microstructural properties derived from tensile tests and dark-field transmission electron microscopy across varied aging times. An expandable knowledge graph, constructed using the Tensile Test and Precipitate Geometry Ontologies aligned with the PMD Core Ontology, facilitates this integration. This approach adheres to FAIR principles and enables sophisticated analysis via SPARQL queries, revealing correlations consistent with the Orowan mechanism. The study highlights the potential of semantic data integration in MSE, offering a new approach for data-centric research and enhanced analytical capabilities.
This study investigates the room‐ and high‐temperature (650 °C) tensile and low‐cycle‐fatigue behavior of Inconel 718 produced by laser powder bed fusion (PBF‐LB/M) with a four‐step heat treatment and compares the results to the conventional wrought material. The microstructure after heat treatment is characterized on different length scales. Compared to the wrought variant, the elastic and yield properties are comparable at both test temperatures while tensile strength, ductility, and strain hardening capacity are lower. The fatigue life of the PBF‐LB/M variant at room temperature is slightly lower than that of the wrought material, while at 650 °C, it is vice versa. The cyclic stress response for both material variants is characterized by cyclic softening, which is more pronounced at the higher test temperature. High strain amplitudes (≥0.7%) at room temperature and especially a high testing temperature result in the formation of multiple secondary cracks at the transitions of regions comprising predominantly elongated grain morphology and columns of stacked grains with ripple patterns in the PBF‐LB/M material. This observation and pronounced crack branching and deflection indicate that the cracks are controlled by sharp micromechanical gradients and local crystallite clusters.
The heat-resistant cast iron EN-GJSA-XNiSiCr35-5-2 (Ni-Resist D-5S) was investigated for its fatigue crack growth behavior at room and high temperatures. Force-controlled tests were carried out at constant temperatures (20 °C, 500 °C, 700 °C) without and with hold time and different load ratios. The crack growth behavior was also characterized under TMF loading (Tmin = 400 °C, Tmax = 700 °C) by applying IP and OP conditions and different load ratios. Three different techniques were combined to monitor crack growth: potential drop, thermography, and compliance method. The effect of the different loading conditions on the fatigue crack growth behavior will be presented and discussed.
In this presentation, the results of the determination of the diffraction and single-crystal elastic constants of laser powder bed fused Inconel 718 are presented. The analysis is based on high-energy synchrotron diffraction experiments performed at the Deutsches Elektronen-Synchrotron. It is shown that the characteristic microstructure of laser powder bed fused Inconel 718 impacts the elastic anisotropy and therefore the diffraction and single-crystal elastic constants. Finally, the consequences on the diffraction-based residual stress determination of laser powder bed fused Inconel 718 are discussed.
Manipulating ceramic powder compacts and ceramic suspensions (slurries) within their volume with light requires a minimum transparency of the materials. Compared to polymers and metals, ceramic materials are unique as they offer a wide electronic band gap and thus a wide optical window of transparency. The optical window typically ranges from below 0.3 µm up to 5µm wavelength. Hence, to penetrate with laser light into the volume of a ceramic powder compound its light scattering properties need to be investigated and tailored. In the present study we introduce the physical background and material development strategies to apply two-photon-polymerization (2PP) for the additive manufacture of filigree structures within the volume of ceramic slurries.
Manipulating ceramic powder compacts and ceramic suspensions (slurries) within their volume with light requires a minimum transparency of the materials. Compared to polymers and metals, ceramic materials are unique as they offer a wide electronic band gap and thus a wide optical window of transparency. The optical window typically ranges from below 0.3 µm up to 5µm wavelength. Hence, to penetrate with laser light into the volume of a ceramic powder compound its light scattering properties need to be investigated and tailored. In the present study we introduce the physical background and material development strategies to apply two-photon-polymerization (2PP) for the additive manufacture of filigree structures within the volume of ceramic slurries.
Manipulating ceramic powder compacts and ceramic suspensions (slurries) within their volume with light requires a minimum transparency of the materials. Compared to polymers and metals, ceramic materials are unique as they offer a wide electronic band gap and thus a wide optical window of transparency. The optical window typically ranges from below 0.3 µm up to 5µm wavelength. Hence, to penetrate with light into the volume of a ceramic powder compound, its light scattering properties need to be investigated and tailored. In the present study we introduce the physical background and material development strategies to apply two-photon-polymerization (2PP), and other volumetric methods for the additive manufacture of filigree structures within the volume of ceramic slurries.
In order to be able to manipulate ceramic powder compacts and ceramic suspensions (slurries) within their volume with light, a minimum transparency of the materials is required. Compared to polymers and metals, ceramic materials are characterized by the fact that they have a wide electronic band gap and therefore a wide optical window of transparency. The optical window generally ranges from less than 0.3 µm to 5 µm wavelength. In order to focus light into the volume of a ceramic powder compact, its light scattering properties must therefore be tailored. In this study, we present the physical background and material development strategies for the application of two-photon polymerization (2PP) and selective volumetric sintering for the additive manufacturing of structures in the volume of ceramic slips and green compacts.
The Binder Jetting BJ process is one of the most versatile additive manufacturing technologies in use. In this process a binder is locally jetted into a powder bed for the consolidation of a 3D structure, layer by layer. Basically, all materials which can be provided as a flowable powder and, thus, spreadable to a thin layer, can be processed. Metals, ceramics and polymers are processable, but also materials from nature, such as sand, wood sawdust and insect frass. Moreover, the BJ technology is adapted to large building volumes of some cubic meters easily. Besides these striking advantages, the manufacture of ceramic parts by BJ is still challenging, as the packing density of the powder bed is generally too low and the particle size of a flowable powder too large for a successful densification of printed parts in a subsequent sintering step to an advanced ceramic product. After an introduction of binder jetting in general and highlighting some examples, strategies for obtaining dense ceramic parts by BJ will be introduced.
Regarding feedstocks for the additive manufacturing (AM) of ceramics, two features are most critical in classical powder based AM processes: a high particle packing density (typically >50% TD) must be achieved with very fine particles (typically submicron) in order to ensure sufficient sintering activity. Three innovative approaches will be introduced to overcome this problem:
1. Layer wise slurry deposition: The use of water based ceramic slurries as feedstock for the additive manufacture of ceramics has many advantages which are not fully exploit yet. In the layerwise slurry deposition (LSD) process a slurry with no or low organic content is repetitively spread as thin layers on each other by means of a doctor blade. During the deposition, the ceramic particles settle on the previously deposited and dried material to form thin layers with a high packing density (55-60%). The LSD therefore shares aspects both of tape casting and slip casting. The LSD differentiates from the classical powder-based AM layer deposition, which typically achieves with a flowable coarse grained powder a low packing density (35-50%) only, consequently hindering the ability of sintering ceramic parts to full density. The LSD is coupled with the principles of selective laser sintering (SLS) or binder jetting, to generate novel processes which take advantage of the possibility of achieving a highly dense powder-bed.
2. Laser induced slip casting: Contrary to the LSD process, which requires drying of each individual layer, the direct interaction of ceramic slurries with intense laser radiation, for the laser induced slip casting (LIS), is a promising approach for the additive manufacture of voluminous parts.
3. Gas flow assisted powder deposition: By the application of a vacuum pump a gas flow is realized throughout the powder bed. This gas flow stabilizes the powder bed and results into an enhanced flowability and packing density of the powder during layer deposition.
The presentation will provide a detailed discussion of potentialities and issues connected to the mentioned technologies and will describe the most recent developments in their application to technical ceramics.
Gas turbine components, made of nickel-based alloys, undergo material damage due to high temperatures and mechanical stresses. These components need periodic replacement to avoid efficiency loss and failure. Repair of these parts is more cost-effective than replacement. State-of-the-art repair technologies, including different additive manufacturing (AM) and brazing processes, are considered for efficient restoration. Materials properties mismatches and/or internal defects in repaired parts may expedite crack initiation and propagation, reducing fatigue life. To understand the crack growth behavior in joining zones and predict the remaining life of repaired components, fatigue crack growth (FCG) tests were conducted on specimens of nickel-based alloys joined via brazing, pre-sintered preforms and AM. The FCG experimental technique was successfully adapted for joined specimens and results indicate that the investigated braze material provides a lower resistance to crack growth. In AM-sandwich specimens, the crack growth rates are significantly reduced at the interface of AM and cast material.
Unlike conventional alloys, which typically consist of one main element, high-entropy alloys (HEAs) contain five or more principal elements, which broaden chemical complexity and with it a realm of synergistic mechanisms. The AlMo0.5NbTa0.5TiZr HEA initiated a subclass of Al-containing refractory (r)HEAs that has recently drawn attention [2]. The alloy has a superalloy-resembling B2/bcc nanostructure, which inspired its name refractory high entropy superalloy (RSA). With high-temperature (HT) compressive strengths beyond conventional Ni-based superalloys, this nanostructure could be used for improved HT structural applications. However, in the application-relevant HT regime the Al-Zr-rich B2 phase decomposes to form a hexagonal Al-Zr-based intermetallic (Al4-xZr5; x: 0..1) [3,4]. This work explores the fascinating yet fatal micromechanisms associated to this phase transformation, in the context of creep, annealing and oxidation experiments performed between 800 and 1200 °C.
The material was produced by arc-melting and heat treatment in argon, which lead to grain boundaries decorated with up to 7%. Interrupted constant-load creep tests were performed under vacuum (at 10-4 Pa), at 900–1100 °C with external tensile stresses of 30–120 MPa. Oxidation experiments were separately conducted for 24 hours at 800 and 1000 °C in both dry (21% O2 + 79% N2) and humid (8% O2 + 74% N2 + 18% H2O) air. After the experiments, the samples were characterized by X-ray diffraction, scanning electron microscopy and transmission electron microscopy to reveal degradation mechanisms. Crystallographic texture, orientation relationships and stabilization of an oxygen-containing iso structure (Al4-xZr5(Ox-y); y: 0..x) of the Al-Zr-rich intermetallic are found and discussed.