5 Werkstofftechnik
Filtern
Dokumenttyp
- Posterpräsentation (100) (entfernen)
Sprache
- Englisch (100) (entfernen)
Referierte Publikation
- nein (100)
Schlagworte
- Glass (6)
- Additive manufacturing (5)
- Degradation (5)
- Microstructure (5)
- Additive Manufacturing (4)
- Coarsening (4)
- Corrosion (4)
- Crack growth (4)
- Creep (4)
- FAIR (4)
- Transmission electron microscopy (4)
- 316L (3)
- Ab-initio (3)
- Alloy 2618A (3)
- EBSD (3)
- Fatigue (3)
- Hydrogen (3)
- NTE (3)
- Nanoparticles (3)
- Soda-lime silicate glass (3)
- Sol-gel (3)
- Solid-state (3)
- TDEP (3)
- VSSA (3)
- Vickers (3)
- Crack Propagation (2)
- Crystal orientation (2)
- Crystallization (2)
- DCB (2)
- Dark-field transmission electron microscopy (DFTEM) (2)
- Depth-profiling (2)
- Deuterium (2)
- Electron beam induced modification (2)
- Electron microscopy (2)
- Environmental stress cracking (ESC) (2)
- FIB (2)
- GD-OES (2)
- Gold nanoparticles (2)
- High temperature corrosion (2)
- Imaging techniques (2)
- Inconel 686 (2)
- Iron oxide nanoparticles (2)
- Kikuchi (2)
- LTCC (2)
- Lattice parameters (2)
- Lithium Ion Batteries (2)
- Low Cycle Fatigue (2)
- Machine Learning (2)
- Metadata schema (2)
- NFDI (2)
- Ontology (2)
- Oxidation (2)
- Plattform MaterialDigital (2)
- Polymer (2)
- Ratio refinement (2)
- Reference data (2)
- Referenzdaten (2)
- Sample preparation (2)
- Sandwich (2)
- Selective laser melting (2)
- Semantic Interoperability (2)
- Semantic Web Technologies (2)
- Sintering (2)
- Syngle Crystal alloy (2)
- Ti-6Al-4V (2)
- ToF-SIMS (2)
- Water content (2)
- Water speciation (2)
- 3D imaging (1)
- 5G (1)
- AFM (1)
- AISI 304L (1)
- AM (1)
- Aggressive environement (1)
- Aggressive environment (1)
- Aging mechanisms (1)
- Al-Cu-Li alloys (1)
- Alkali ions (1)
- Aluminium (1)
- Analysis (1)
- Anhydrite (1)
- Anisotropy (1)
- Artefact (1)
- Atacama Desert (1)
- Atmospheric Plasma Spraying (1)
- Atomic packing factor (1)
- Atomization (1)
- Austenitic stainless steel (1)
- Austenitic steel (1)
- Automation (1)
- BTS (1)
- Bio Ceramics (1)
- Bioactive glass (1)
- Biofilm (1)
- Bioresorbable (1)
- Borate glasses (1)
- Brittle / ductile fracture behavior (1)
- Brittle fracture (1)
- CALPHAD (1)
- CALPHAD databases analysis (1)
- CCS (1)
- Calcium cobaltite (1)
- Carbon Fiber Reinforced Plastics (1)
- Carbon capture (1)
- Carbon dioxide (1)
- Ceramic (1)
- Chemically Complex Alloy (1)
- Chromium oxide (1)
- Co-axial monitoring (1)
- Complex concentrated alloy (CCA) (1)
- Composite (1)
- Computed Tomography (1)
- Corrosion resistance (1)
- Crack evolution (1)
- Crack healing (1)
- Crack propagation analysis (1)
- Crystal plasticity (1)
- DED-L (1)
- Dark-field transmission electron microscopy (1)
- Data Integration (1)
- Data Interoperability (1)
- Data fusion (1)
- Demonstrators (1)
- Density (1)
- Destabilization (1)
- Dielectric Spectroscopy (1)
- Diffraction Enhanced Imaging (1)
- Diffusion coefficient (1)
- Digital material representation (1)
- Digitalization (1)
- Digtial Representation (1)
- Diopside (1)
- Distributed fiber optic sensors (1)
- EDX (1)
- Electromicroscopy (1)
- Electron Backscatter Diffraction (1)
- Electronic Lab Notebook (1)
- Environmental stress cracking (1)
- FeCr- alloys (1)
- Film depositition (1)
- Focussed ion beam growth (1)
- Fracture Toughness (1)
- Fracture surface analysis (1)
- Fresnoit (1)
- Full Notch Creep Test (1)
- Full Notch Creep Test (FNCT) (1)
- Full-Notch Creep Test (FNCT) (1)
- Fused Filament Fabrication (1)
- GFRP (1)
- Gas permeation (1)
- Glas (1)
- Glass ceramic (1)
- Glass composition (1)
- Glass fiber reinforced polymers (1)
- Glass matrix composite (1)
- Glass melt (1)
- Glass structure (1)
- Glass transformation temperature (1)
- Glass-ceramic (1)
- Gypsum (1)
- HV-Insulation (1)
- Hardness (1)
- Heat Treatment (1)
- High Cycle Fatigue (1)
- High Temperature Testing (1)
- High Voltage Insulation (1)
- High entropy alloy (1)
- High pressure gas storage (1)
- High temperature (1)
- High-density polyethylene (1)
- High-entropy alloys (1)
- High-temperature corrosion (1)
- Hot stage microscopy (1)
- Hydrogen gas (1)
- Hydrogen permeability (1)
- IR (1)
- In situ (1)
- In situ tensile test (1)
- In-situ tomography (1)
- In718 (1)
- Internal friction (1)
- Interoperability (1)
- Knowledge Representation (1)
- Knowledge graph and ontologies (1)
- LMD (1)
- LTCC multilayer (1)
- Laser Beam Melting (1)
- Laser Cladding (1)
- Laser Powder Bed Fusion (1)
- Laser ablation in liquid (1)
- Laser cladding (1)
- Lightweight materials (1)
- Lithium-ion batteries (1)
- Local landscape evolution (1)
- Long-term behavior (1)
- Low cycle fatigue (1)
- Manganese oxide (1)
- Material characterization (1)
- Material oxidation (1)
- Mechanical Behavior (1)
- Metal powder characterization (1)
- Metal seal (1)
- Metformin (1)
- Metrology (1)
- Micro computed tomography (1)
- Micromanipulation (1)
- Microplastics (1)
- Microstructure analysis (1)
- Modeling (1)
- NFDI-MatWerk (1)
- NMR (1)
- Nano-landscape (1)
- Nano-powder characterization (1)
- Nanomaterial screening (1)
- Optical criterion (1)
- Orientation (1)
- Orientation-dependent microstructure (1)
- Oxide Glasses (1)
- Oxidglas (1)
- PE-HD (1)
- PMD Core Ontology (1)
- PMDco (1)
- Particle size (1)
- Photocatalysis (1)
- Polyethylene, PE-HD (1)
- Polymer-Ceramic-Composite (1)
- Porosity (1)
- Precipitation (1)
- Process Monitoring (1)
- Property simulation (1)
- Reference Data (1)
- Reference Dataset (1)
- Reference material (1)
- Reference nanomaterials (1)
- Reliable characterization (1)
- Research Data Management (1)
- Residual stress (1)
- Risswachstum (1)
- Robot-assisted galss melting (1)
- Robotische Glasschmelzanlage (1)
- S-phase (1)
- SEM (1)
- SIMS (1)
- SLM (1)
- Salt melt (1)
- Scale-bridging (1)
- Scanning electron microscopy (SEM) (1)
- Scarf joint repairs (1)
- Semantic Data (1)
- Silver (1)
- Silver glass paste (1)
- Silver nanoparticle (1)
- Size and size distribution (1)
- Slurry (1)
- Small angle x-ray scattering (1)
- Sodium zinc borate glass (1)
- Sodiumborosilicate glasses (1)
- Soil sample (1)
- Starch (1)
- Starch nanoparticle (1)
- Sulfidation (1)
- Sulfiding (1)
- Surface Energy (1)
- Surface crystallization (1)
- Surface energy (1)
- Synchrotron Tomography (1)
- Synchrotron tomography (1)
- Synthetic air (1)
- TED-GC-MS (1)
- TEM (1)
- Tensile Properties (1)
- Thermal Spray (1)
- Thermodynamic analysis (1)
- Thermoelectric generator design (1)
- Thermoelectric oxides (1)
- Thermomechanics (1)
- Titanium (1)
- Titanium oxide (1)
- Transmission electron microscope (TEM) (1)
- Ultrasound (1)
- VM12 SHC (1)
- Vickers indentation (1)
- Virtual experiments (1)
- Viscosity (1)
- Wind turbine blade shells (1)
- Wind turbine blades (1)
- X-Ray Diffraction (1)
- X-ray refraction (1)
- XRD (1)
- Young´s Modulus (1)
Organisationseinheit der BAM
- 5 Werkstofftechnik (100)
- 5.1 Mikrostruktur Design und Degradation (29)
- 5.4 Multimateriale Fertigungsprozesse (21)
- 5.6 Glas (21)
- 5.2 Metallische Hochtemperaturwerkstoffe (18)
- 6 Materialchemie (15)
- 5.3 Polymere Verbundwerkstoffe (10)
- 6.1 Oberflächen- und Dünnschichtanalyse (9)
- 8 Zerstörungsfreie Prüfung (9)
- 8.5 Röntgenbildgebung (8)
Morphologies of Fresnoite surface crystals of BT0.75S glass under different atmospheric conditions
(2019)
Fresnoite glass-ceramics are characterized by piezoelectric, pyroelectric and non-linear optical properties. These properties can be adjusted by orienting the fresnoite crystals during crystallization. Crystallization begins at the surface. The first surface crystals are not oriented perpendicular and, therfore, produce a surface layer that has not the intended properties. To overcome this issue, the formation of fresnoite surface crystals at different atmospheric conditions was studied.
Glass strength and fatigue is limited by surface cracks. As subcritical crack growth (SCCG) is governed by ambient humidity, stress corrosion at the crack tip is widely accepted to be the underlying mechanism. However, as water is known to have decisive effect on glass properties and can rapidly enter the crack tip near glass region, SCCG could be affected by such water related phenomena. We tried to mimic these effects studying water dissolution and speciation, mechanical properties, and SCCG in water-bearing glasses. For this purpose, glasses up to 8 wt% water have been prepared by means of high-pressure melting of glass powder - water mixtures.
As part of this effort, SCCG in dry and hydrous commercial micros¬cope slide glass (CW = 6 wt%) was studied in double cantilever beam (DCB) geometry and sub-Tg relaxation was measured by Dynamic Mechanical Analysis (DMA).
For SCCG in ambient air (24% r.h.), SCCG was promoted by the presence of 6wt% bulk water with respect to the dry glass. On the other hand, stress intensity values, KI, required to cause slow crack growth (v < 10-6 ms-1) resemble literature findings for float glass of similar composition in liquid water, which might represent the maximum possible promoting effect of ambient water on SCCG.
For SCCG in vacuum (10-3 mbar), dissolved bulk water causes even more pronounced effects. Most strikingly, it strongly decreases the slope of the log v(KI)-curve, which is a measure of dissipated energy during fracture. A strong increase of sub-Tg relaxation with increasing water content was confirmed by DMA. As a consequence, slow crack growth occurs at KI values as measured in the dry glass whereas fast crack growth occurs at much larger KI than that of the dry glass. Kinks and shoulders shown by the inert log v(KI)-curve indicate that bulk water does not simply affect bulk mechanical properties.
The life time of mechanical components in high temperature applications is basically determined by their workings. Corrosion determines the loss of material corresponding to the loss of the effective load-bearing section and consequently increasing stress levels. To improve the material selection for such applications a numerical life prediction corrosion model for different alloys and environments is needed. Based on the ferritic alloys FeCr and FeCrCo a first quantitative model is to be developed. For this purpose, the alloys are aged at 600°C, 650°C and 700°C in synthetic air under normal pressure for between 10 and 240 hours. The first objective is to establish a quantitative relationship between the oxidation rate as a function of composition and microstructure of the alloys. The influence of the inner interface as an essential parameter for transport by diffusion on the oxidation kinetics is discussed in this presentation.
The ferritic steel 13CrMo4-5 due to good properties with relation to attractive price is frequently use in power plants industry. According EN10028-2 this steel can be used up to 570 °C because of its creep behavior but its corrosion resistance limits the use frequently to lower temperatures, depending on gas temperature and slag formation. The corrosion test were performed in environment containing mixture of gases like: O2, COx, SOx and ashes, with elements e.g. Na, Cl, Ca, Si, C, Fe, Al. Exposure time was respectively 240 h, 1000 h and 4500 h in temperature 600 °C. The oxide scale on the 13CrMo4-5 steel was significant thicker than for In686 coating and the difference increase according for longer exposure time.
The microstructure, chemical and phase composition of the oxide scales were investigated by means of a light microscope, the electron scanning and transmission microscopes (SEM,TEM) equipped with the EDS detectors.
Introduction/purpose:
Multi-principal-element alloys (MPEAs), also known as complex concentrated alloys (CCAs), have recently come to the attention of the scientific community due to some interesting and unexpected microstructures, and their potential for improving properties such as, e.g. mechanical strength and oxidation resistance in high temperature structural applications. The AlMo0.5NbTa0.5TiZr refractory (r)CCA is one such candidate, showing a two-phase microstructure after a two-stage heat treatment under argon atmosphere at a controlled cooling rate. Since the application conditions intended for this alloy require a long-term high temperature (> 700 °C) mechanical and oxidation resistance, it becomes necessary to assess the possible phase development in this regime.
Methods:
In this contribution, the CALPHAD method is used to calculate phase equilibria for the AlMo0.5NbTa0.5TiZr CCA in the presence and absence of oxygen. Equilibrium phase amount evolution with temperature and Scheil Model for solidification (e.g. Fig.1a and Fig.1b, respectively) are analyzed, which are obtained using the databases TCNI9 and TTNI7 and the Gibbs energy minimizer in the Thermo-Calc software.
Results:
The diagrams reveal that two BCC-based phases could form during alloy solidification, where one phase would be enriched with Mo, Nb and Ta while the other phase, with Al, Ti and Zr. Activity oxides diagrams show that a stable form of aluminum oxide (α-Al2O3, Pearson symbol: hR10, corundum) can be formed. Results obtained by both databases, as well as discrepancies between property phase and Scheil approaches are discussed on the base of experimental results.
Conclusions:
A modeling tool is used to support alloy characterization and development, providing also the possibility to feedback information to improve existing thermodynamic databases.
Characterization of early crystallization stages in surface-crystallized diopside glass-ceramics
(2019)
Structure formation in glass-ceramics by means of surface crystallization is a challenging open question and remains elusive to definite answers. In several glass-ceramic systems, oriented crystal layers have been observed at the immediate surface, including diopside and some fresnoite systems. However, it is still open to debate, whether oriented surface crystallization is the result of oriented nucleation or growth selection effects. In the same vein, there is still discussion whether surface nucleation is governed by surface chemistry effects or by defects serving as active nucleation sites.
In order to help answer these questions, annealing experiments at 850°C have been performed on a MgO·CaO·2SiO2 glass, leading to the crystallization of diopside at the surface. Different annealing durations and surface treatment protocols (i.a. lapping with diamond slurries between 16 µm and 1 µm grain size) have been applied. Particular focus has been put on earliest crystallization stages, with crystal sizes down to about 200 nm. The resultant microstructure has been analyzed by electron backscatter diffraction (EBSD) and two different kinds of textures have been observed, with the a- or b-axis being perpendicular to the sample surface and the c-axis lying in the sample plane. Even at shortest annealing durations, a clear texture was present in the samples. Additionally, selected samples have been investigated with energy-dispersive x-ray spectroscopy in the scanning transmission electron microscope (STEM-EDX). The diopside crystals have been found to exhibit distinguished submicron structure variations and the glass around the crystals was shown to be depleted of Mg.