Filtern
Erscheinungsjahr
Dokumenttyp
Sprache
- Englisch (420) (entfernen)
Schlagworte
- Laser beam welding (94)
- Welding simulation (26)
- Resistance spot welding (22)
- Solidification cracking (21)
- Laser metal deposition (20)
- Additive manufacturing (19)
- Microstructure (16)
- Numerical simulation (16)
- Mechanical properties (15)
- Laser welding (14)
- Electromagnetic weld pool support (13)
- Distortion (10)
- High power laser beam welding (10)
- Laser hybrid welding (10)
- Gas metal arc welding (9)
- Hot cracking (9)
- Hybrid laser-arc welding (9)
- Inconel 718 (9)
- Lorentz force (9)
- Thick-walled steel (9)
- Weld pool shape (9)
- Advanced high strength steels (8)
- Hot cracking test (8)
- Natural convection (8)
- Welding (8)
- Additive Manufacturing (7)
- Aluminium (7)
- Electromagnetic weld pool control (7)
- Element transport (7)
- Grain refinement (7)
- Hartmann effect (7)
- Hybrid laser arc welding (7)
- Magnetohydrodynamics (7)
- Neural networks (7)
- Numerical modeling (7)
- Numerical welding simulation (7)
- Pipeline (7)
- Porosity (7)
- Residual stress (7)
- DED (6)
- Friction stir welding (6)
- Laser Metal Deposition (6)
- Liquid metal embrittlement (6)
- Residual stresses (6)
- Simulation (6)
- Temperature field (6)
- Ti-6Al-4V (6)
- Artificial neural network (5)
- Critical strain (5)
- Design of experiments (5)
- Heat conduction (5)
- High strength steels (5)
- Hybrid Laser Arc Welding (5)
- Hybrid welding (5)
- Magnetic field (5)
- Marangoni stresses (5)
- Solidification (5)
- Advanced high strength steel (4)
- Crack (4)
- Deep penetration (4)
- Deep penetration laser beam welding (4)
- Directed Energy Deposition (4)
- Directed energy deposition (4)
- Duplex stainless steel (4)
- FEA (4)
- Fatigue (4)
- Fatigue tests (4)
- Fiber laser (4)
- Hardness (4)
- High strength steel (4)
- Inverse heat conduction problem (4)
- Keyhole (4)
- Laser (4)
- Laser-hybrid welding (4)
- Marangoni flow (4)
- Optimisation (4)
- Partial penetration (4)
- Post-weld heat treatment (4)
- Quality assurance (4)
- Sensitivity analysis (4)
- Stainless Steel (4)
- Stress reduction (4)
- Tubular X-joints (4)
- Weld pool dynamics (4)
- Weldability (4)
- 9%Ni steel (3)
- AHSS (3)
- Adaptive control (3)
- Arc welding (3)
- Austenitic stainless steels (3)
- Automotive application (3)
- Automotive assembly (3)
- Automotive industry (3)
- Bulging effect (3)
- Corrosion (3)
- Cracking (3)
- Cracks (3)
- Cryogenic steel (3)
- Crystal branch development (3)
- Digital image correlation (3)
- Electromagnetic Weld Pool Support (3)
- Electron beam welding (3)
- End crater (3)
- Equivalent heat source (3)
- Experimental validation (3)
- Fatigue life (3)
- Finite element analysis (3)
- Finite element simulation (3)
- Full Penetration (3)
- Full penetration (3)
- GMAW (3)
- GTA welding (3)
- Gap (3)
- Gap bridgeability (3)
- Gaps (3)
- Grain size (3)
- Heat treatment (3)
- High energy beam welding (3)
- High-power laser (3)
- High-strength low-alloy steel (3)
- Hot crack (3)
- L-PBF (3)
- Laser energy distribution (3)
- Laser implantation (3)
- Laser scanner optics (3)
- Local reduced pressure (3)
- Longitudinal weld (3)
- MAG welding (3)
- Mathematical models (3)
- Mechanical mismatching (3)
- Mobile vacuum (3)
- Modified spray arc (3)
- Molten pool dynamics (3)
- Multi-physical modelling (3)
- Numerical modelling (3)
- Numerical process simulation (3)
- Orbital welding (3)
- Periodic solidification pattern (3)
- Phase transformation (3)
- Process chain (3)
- Process simulation (3)
- Ray tracing (3)
- Refill friction stir spot welding (3)
- Schweißsimulation (3)
- Selective Laser Melting (3)
- Simulating (3)
- Single pass welding (3)
- Spot welding (3)
- Stainless steels (3)
- Sysweld (3)
- TRIP steel (3)
- Temperature (3)
- Temperature field generation (3)
- Thermo-fluid flow (3)
- Thick Materials (3)
- Transient heat transfer (3)
- Weldbonding (3)
- Welding-induced distortion (3)
- 316L (2)
- AC weld pool support (2)
- Al Ti5B1 (2)
- Alloy 1050A (2)
- Alloy 5083 (2)
- Alloy 6082 (2)
- Aluminium alloys (2)
- Austenite stability (2)
- Automated manufacturing (2)
- Automation (2)
- Bulge effect (2)
- Bulge formation (2)
- CCT sensitivity (2)
- CTW test (2)
- Charpy impact toughness (2)
- Circumferential weld (2)
- Clad steels (2)
- Coarse-grained heat-affected zone (2)
- Columnar to equiaxed transition (CET) (2)
- Corrosion resistance (2)
- Critical strains (2)
- Data preparation (2)
- Defects (2)
- Deposition rate (2)
- Die-cast aluminum (2)
- Dimensional accuracy (2)
- Directivity (2)
- Dissimilar metal weld overlays (2)
- Dual phase steel (2)
- Duplex AISI 2205 (2)
- EBSD (2)
- EDXRD (2)
- Edge effects (2)
- Edge quality (2)
- Eigenspannungen (2)
- Electromagnetic backing (2)
- Electromagnetic influence (2)
- Electromagnetically controlled laser beam welding (2)
- Energy efficiency (2)
- Energy input (2)
- Finite element method (2)
- Fluid flow (2)
- Frequency (2)
- Fusion zone size (2)
- GMA welding (2)
- GMA-laser hybrid welding (2)
- GTAW (2)
- Gas shielded arc welding (2)
- Gas tungsten arc welding (GTAW) (2)
- Girth welding (2)
- Global optimisation (2)
- Heat flow (2)
- Heißrisse (2)
- High power (2)
- High power fibre laser (2)
- High power laser (2)
- High power welding (2)
- High-power laser beam welding (2)
- Hochfester Stahl (2)
- Hybrid components (2)
- Industrial application (2)
- Inverse modelling (2)
- Keyhole collapse (2)
- Keyhole mode welding (2)
- Kornfeinung (2)
- LME (2)
- Laser Beam Welding (2)
- Laser Powder Bed Fusion (2)
- Laser Welding (2)
- Laser arc-hybrid welding (2)
- Laser beam Welding (2)
- Laser beam weliding (2)
- Laser beams (2)
- Laser keyhole welding (2)
- Laser powder cladding (2)
- Laser-metal-deposition (2)
- Life Cycle Assessment (LCA) (2)
- Life cycle assessment (LCA) (2)
- Lightweight body shell design (2)
- Lightweight concepts (2)
- Local critical strain (2)
- Marangoni convection (2)
- Marangoni effect (2)
- Martensitbildung (2)
- Martensite kinetic (2)
- Matching ferritic welding electrode (2)
- Material flow (2)
- Melt pool dinamics (2)
- Melt pool dynamics (2)
- Mesh analysis (2)
- Metal mixing (2)
- Model prediction (2)
- Molten pool (2)
- Moving mesh (2)
- Multiple experiments (2)
- Nickel (2)
- Nickel alloys (2)
- Notch stress approach (2)
- Optical flow (2)
- Optimization (2)
- Oscillating magnetic field (2)
- Oscillating vapor plume (2)
- PBF-LB/M (2)
- Partial penetration welding (2)
- Path planning (2)
- Pores (2)
- Porosity prevention (2)
- Porosity reduction (2)
- Preheating (2)
- Process monitoring (2)
- Process reliability (2)
- RSW (2)
- Repair welding (2)
- Resource efficiency (2)
- SMAW (2)
- Seam geometry (2)
- Short calculation time (2)
- Stainless steel (2)
- Stiffness (2)
- Stochastic search method (2)
- Strain rates (2)
- Structural stress approach (2)
- Submerged arc welding (2)
- Surface structuring (2)
- Synchrotron (2)
- Tack welding (2)
- Technical crack detection (2)
- Temperature behavior (2)
- Tensile strength (2)
- Tensile tests (2)
- Testing method (2)
- Thermal analysis (2)
- Thermal cycles (2)
- Thermography (2)
- Thick plates (2)
- Time-to-solution (2)
- Titanium alloy (2)
- Transformable steels (2)
- Ultrasonic vibration (2)
- V groove (2)
- Vapor plume (2)
- Vapour plume (2)
- Volume heat source (2)
- WIG-Schweißen (2)
- Weld metal (2)
- Weld pool (2)
- Welding of aluminum (2)
- Welding of thick metal plates (2)
- Welding thermal cycle (2)
- Welding-induced residual stress (2)
- Widerstandspunktschweißen (2)
- Wire arc additive manufacturing (2)
- Zinc coated steel (2)
- 2D ray tracing (1)
- 3D FE-simulation (1)
- 3D ray tracing (1)
- 3D-FE-Simulation (1)
- 9% Ni Steel (1)
- 9%Ni steel, (1)
- AC magnetic field (1)
- AC magnetic fields (1)
- AGIL (1)
- AISI D2 (1)
- AM (1)
- AM feature integration (1)
- AZ31 magnesium alloy (1)
- Adaptive welding beam oscillation (1)
- Advanced High-Strength Steel (AHSS) (1)
- Advanced high-strength steel (1)
- Advanced high-strength steels (1)
- Al Mg Si alloys (1)
- Al/Mg alloys (1)
- AlMg0.7SiTiB filler wire (1)
- Aluminium alloy (1)
- Aluminium-Legierung 5083 (1)
- Aluminum alloy 2024-T3 (1)
- Aluminum alloys (1)
- Aluminum bronze (1)
- Analysis techniques (1)
- Analytical approach (1)
- Analytical model (1)
- Anisotropic austenitic steel (1)
- Anisotropic austenitic weld (1)
- Applicability (1)
- Arc Welding Automation (1)
- Arc sensor (1)
- Artificial Intelligence (1)
- Artificial intelligence (1)
- Austenitic (1)
- Austenitic steel (1)
- Austenitic welding electrode (1)
- Automated arc welding (1)
- Automated welding (1)
- Automobile engineering (1)
- Automobiles (1)
- Automotive (1)
- Automotive parts (1)
- Axial force (1)
- Bead-on-plate welds (1)
- Beam Welding (1)
- Beam attenuation (1)
- Beam welding (1)
- Bending test (1)
- Boundary element method (1)
- Build - up Strategy (1)
- Build direction (1)
- Build-up Orientation (1)
- Build-up strategy (1)
- Bulging (1)
- Bulging effects (1)
- Buoyancy (1)
- C-Mn steels (1)
- CFD model (1)
- CFD-model (1)
- CO2 laser (1)
- CO2 lasers (1)
- CO2- and Nd:YAG laser (1)
- CTW-Test (1)
- Calculation (1)
- Calculation time (1)
- Carbon Steels (1)
- Carbon dioxide footprint (1)
- Carbon steels (1)
- Cavities (1)
- Charpy V-notch tests (1)
- Cimensional Accuracy (1)
- Circumferential welds (1)
- Cladding parameter (1)
- Clustering (1)
- Coarse grained heat affected zone (1)
- Cold Cracking Test (1)
- Columnar crystal growth (1)
- Combined laser manufacturing (1)
- Combined processes (1)
- Computer vision (1)
- Condition monitoring (1)
- Contact element (1)
- Continuous cooling transformation behaviour (1)
- Continuous cooling transformation diagrams (1)
- Control magnetic field (1)
- Controlled tensile weldability test (1)
- Conventional Ni-based austenitic welding electrode (1)
- Convolutional neural network (1)
- Crack growth (1)
- Cracking susceptibility (1)
- Cracking susceptibility of AHSS (1)
- Cracks in the HAZ (1)
- Crash behaviour (1)
- Crater (1)
- Critical strain rate (1)
- Cryogenic Steel (1)
- DED-EB (1)
- DIC (1)
- DIC technique (1)
- DIP transfer (1)
- Damage prediction (1)
- Deep learning (1)
- Deformation (1)
- Deformation behaviour (1)
- Deformed geometry (1)
- Dendrite growth (1)
- Density measurement (1)
- Deposition welding (1)
- Die-casted aluminum (1)
- Different welding position (1)
- Digital Image Correlation (1)
- Digital factory (1)
- Digitalization (1)
- Direct Energy Deposition (1)
- Direct Laser Metal Deposition (1)
- Direct energy deposition (1)
- Discontinuities (1)
- Dissimilar joints (1)
- Dissimilar welding (1)
- Distortion simulation (1)
- Drive pinion (1)
- Drop out of bead (1)
- Duplex (1)
- Duplex nucleation theory (1)
- Duplex stainless steels (1)
- Duplex steels (1)
- Dynamic fracture tests (1)
- EBAM (1)
- Economic wide technology replacement (1)
- Efficient modelling (1)
- Einspannung (1)
- Electro-thermomechnical model (1)
- Electrode geometry (1)
- Electromagnetic (1)
- Electromagnetic Force (1)
- Electromagnetic rectification (1)
- Electromagnetic stirring (1)
- Electromagnetic support (1)
- Electromagnetic supported degassing (1)
- Electromagnetic weld control (1)
- Electromagnetic weld pool support system (1)
- Electromagnetic weld support system (1)
- Embedded electronics (1)
- End-crater (1)
- Energy density distribution (1)
- Energy dispersive synchrotron X-ray diffraction (1)
- Energy parameters of the arc (1)
- Environment (1)
- Environmental impact categories (1)
- Epitaxial nucleation (1)
- Equivalent volumetric heat source (1)
- Ermüdung (1)
- Execution (1)
- Experimental determination (1)
- Externally loaded hot cracking test (1)
- Externally loaded test (1)
- FE simulation (1)
- FE-model (1)
- FEM (1)
- FEM study (1)
- Fair salary (1)
- Fast calculation (1)
- Fatigue loading (1)
- Fatigue strength (1)
- FeMn-steels (1)
- Ferritic welding electrode (1)
- Ferromagnetic steel (1)
- Ferromagnetic steels (1)
- Ferrous metals and alloys (1)
- Fibre laser (1)
- Fibre lasers (1)
- Fibre-optic lasers (1)
- Filler material distribution (1)
- Filler wire (1)
- Filler wire mixing (1)
- Fillet welds (1)
- Fine-grained Steel (1)
- Finite Element Method (1)
- Finite element method (FEM) (1)
- Finite elements analysis (1)
- Flange width (1)
- Flow (1)
- Flow pattern (1)
- Flüssigmetallinduzierte Rissbildung (1)
- Fracture (1)
- Fracture behaviour (1)
- Fresnel reflection (1)
- Friction spot welding (1)
- Friction welding (1)
- Full penetration laser welding (1)
- Full penetration welding (1)
- Functional analysis (1)
- Functional-analytical solution (1)
- Fusion zone (1)
- Fusion zone profile (1)
- Fusion zone, nickel alloys (1)
- GMA surfacing (1)
- Galvanized steel (1)
- Gap bridging (1)
- Gap compensation (1)
- General analytical solutions (1)
- Gleeble experiments (1)
- Gleeble testing (1)
- Grade S960QL steel (1)
- Grain structure (1)
- Greenhouse gas mitigation (1)
- Greens function method (1)
- HAZ crack (1)
- HSLA (1)
- Hardly separable problem (1)
- Heat Input (1)
- Heat Treatment (1)
- Heat generation (1)
- Heat input (1)
- Heat source calibration (1)
- Heat source configuration (1)
- Heat source models (1)
- Heat transfer (1)
- Heat treatments (1)
- High Power Fibre Laser (1)
- High brightness (1)
- High power fiber laser (1)
- High power laser keyhole welding (1)
- High process speeds (1)
- High speed laser cladding (1)
- High-Power Welding (1)
- High-power Laserbeam Welding (1)
- High-power fibre laser (1)
- High-power laser beam (1)
- High-pressure pipelines (1)
- High-strength fine-grained steels (1)
- High-strength steel sheets (1)
- Higher manganese content (1)
- Highspeed-plasma-laser-cladding (1)
- Hold time (1)
- Hot Cracks (1)
- Human health (1)
- Human health G. (1)
- Hybrid Laser arc Welding (1)
- Hybrid Laser-Arc Welding (1)
- Hybrid Part (1)
- Hybrid Welding (1)
- Hybrid bonding (1)
- Hybrid-laser-arc welding (1)
- Hydrostatic and arc pressure exceed the Laplace pressure (1)
- Hydrostatic force compensation (1)
- Imaging (1)
- Impact Absorbed Energy (1)
- Impact absorbed energy (1)
- In situ strain (1)
- In-situ synchrotron diffraction (1)
- Inconel 625 (1)
- Inconel 939 (1)
- Industrial Parts (1)
- Industrial and Manufacturing Engineering (1)
- Industrial parts (1)
- Initial gap (1)
- Instrumented restrained cracking test (1)
- Instrumentierte Eindringprüfung (1)
- Instumented indentation test (1)
- Integrated alignment features (1)
- Intensity of Restraint (1)
- Investigated materials (1)
- Jacket Support Structures (1)
- Joint-site structure (1)
- Keyhole mode laser beam welding (1)
- Keyhole stability (1)
- LBW (1)
- LCA (1)
- LMD (1)
- LW (1)
- Lamé curves (1)
- Lamé curves approximation (1)
- Laser Metal Deposition (LMD) (1)
- Laser Metal Deposition; Laser Beam Welding; Duplex; Stainless Steel (1)
- Laser and electron beam welding (1)
- Laser beam welding under vacuum/reduced pressure (1)
- Laser beam wlding (1)
- Laser cladding (1)
- Laser cutting (1)
- Laser dispersing (1)
- Laser melting (1)
- Laser metal deposition (LMD) (1)
- Laser metal fusion (1)
- Laser powder bed fusion (1)
- Laser powder-based directed energy deposition (1)
- Laser surfacing (1)
- Laser-Hybrid Welding (1)
- Laser-beam welding, (1)
- Laser-plasma hybrid (1)
- Laserstrahlschweißen (1)
- Life cycle assessment (1)
- Life-cycle assessment (1)
- Lifetime (1)
- Lightweight Design (1)
- Lightweight design (1)
- Lightweight principles (1)
- Liquation Cracking (1)
- Liquid Metal Embrittlement (1)
- Liquid Metal Embrittlement (LME) (1)
- Local fatigue approaches (1)
- Local fatigue spproaches (1)
- Lokale Spannungs-Dehnungskurven (1)
- Low Temperature Toughness (1)
- Low alloy steels (1)
- Low feed rates (1)
- Low heat input GMA welding (1)
- Low heat input Gma welding (1)
- Low transformation temperature (LTT) alloy (1)
- Low transformation temperature filler material (1)
- MHD (1)
- MIG welding (1)
- MRO (1)
- Macro Processing (Joining, Welding) (1)
- Macro processing (1)
- Magnesium (1)
- Magnesium Alloy (1)
- Magnesium alloy (1)
- Magnetic bath support (1)
- Maintenance (1)
- Manganese (1)
- Manganese alloyed stainless steels (1)
- Maritime Components (1)
- Maritime industry (1)
- Martensite start temperature (1)
- Martensite transformation (1)
- Martensitic transformation (1)
- Matching ferritic filler metal (1)
- Material modeling (1)
- Material ranking (1)
- Mathematical modeling (1)
- Measurement (1)
- Mechanical Properties (1)
- Mechanical properties of joints (1)
- Mechanical properties of the joints (1)
- Mechanical property (1)
- Mechanical strength (1)
- Mechanical-technological properties (1)
- Metal forming tools (1)
- Metallic vapour plume (1)
- Microcracking (1)
- Microstructure Tensile strength (1)
- Misalignment of edges (1)
- Misalignment of the edges (1)
- Model calibration (1)
- Model order reduction (1)
- Modeling (1)
- Modeling approach (1)
- Modeling of fluid flow (1)
- Modified varestraint transvarestraint (MVT) hot cracking test (1)
- Molten pool behaviour (1)
- Monitoring systems (1)
- Multi - physical modeling (1)
- Multi pass welding (1)
- Multi-attribute decision method (1)
- Multi-criteria decision support (1)
- Multi-materials joining (1)
- Multi-pass welding (1)
- Multi-physical modeling (1)
- Multi-regional inputeoutput data (1)
- Multiple reflections (1)
- Multirun welding (1)
- Narrow gap welding (1)
- Narrow-gap welding (1)
- Neural Networks (1)
- Neural network (1)
- Ni-based austenitic filler metal (1)
- Ni-based austenitic welding electrode (1)
- Ni-based superalloy (1)
- NiCrBSi (1)
- Nickel-based superalloy (1)
- Non-destructive testing (1)
- Novel metrology (1)
- Novel optical measurement (1)
- Numerical Simulation (1)
- Numerical Welding Simulation (1)
- Numerical analysis (1)
- Numerical approach (1)
- Numerical simulations (1)
- Numerical welding simulations (1)
- Offshore Wind (1)
- Offshore wind turbines (1)
- Open science (1)
- Open source (1)
- Optical measurement (1)
- Optical measurement technique (1)
- Optical measuring technique (1)
- Optical measurment technique (1)
- Orbital process (1)
- Ortsaufgelöst (1)
- PBF/LB-M (1)
- Particles (1)
- Pearlitic microstructure (1)
- Penetration depth (1)
- Phase field method (1)
- Pin profile (1)
- Pipe Welding (1)
- Pipe laying (1)
- Pipe manufacturing (1)
- Pipe weld preparation (1)
- Pipe welding (1)
- Pipeline construction (1)
- Pipeline steel X120 (1)
- Pipeline steel of grade X120 (1)
- Plasma (1)
- Plasma cutting (1)
- Plasma-Transferred-Arc (1)
- Plasma-cut samples (1)
- Plasma-cutting (1)
- Plasma-transferred-arc (1)
- Plastic deformation (1)
- Plume (1)
- Plume heating (1)
- Pointwise constraints (1)
- Position welding (1)
- Post-welding heat treatment (1)
- Powder Analysis (1)
- Pre-weld Preparation (1)
- Precipitation hardening aluminum alloys (1)
- Preheatin (1)
- Prior austenite grain size (1)
- Process diagnostics and simulation (1)
- Process innovations (1)
- Process monitoring and control (1)
- Process procedures (1)
- Process stability (1)
- Proper generalized decomposition (1)
- Pulsed laser beam welding (1)
- Punktschweißkleben (1)
- Punktschweißverbindung (1)
- Quality monitoring (1)
- Rail tracks (1)
- Ray teacing (1)
- Ray-tracing (1)
- Ray-tracing methods (1)
- Recycling (1)
- Reference lists (1)
- Repair and overhaul (1)
- Research data management (1)
- Resistance Spot Welding (RSW) (1)
- Resistance welding (1)
- Result display (1)
- Retained austenite (1)
- Robots (1)
- Root dropping (1)
- SEM (1)
- SEP-1220-3 (1)
- SLM (1)
- SLM printed plasma torch (1)
- Schweißeignung (1)
- Schweißen (1)
- Secondary heat source (1)
- Selektive-laser-melting (1)
- Self-restraint hot cracking (1)
- Self-restraint test (1)
- Sensitivität (1)
- Sensitivitätsanalyse (1)
- Sensivitätsanalyse (1)
- Sensor (1)
- Sensors (1)
- Shear strength (1)
- Sheet (1)
- Shielding atmosphere (1)
- Shielding gas (1)
- Shielding gases (1)
- Ship building (1)
- Shipbuilding (1)
- Shipbuilding steel (1)
- Shrinkage (1)
- Similar and dissimilar material spot weld (1)
- Simufact.welding (1)
- Single-pass welding (1)
- Social Life Cycle Assessment (SLCA) (1)
- Social life cycle assessment (SLCA) (1)
- Software (1)
- Solidification behaviour (1)
- Solidification crack (1)
- Solidification craking (1)
- Stainless austenitic and duplex steels (1)
- Standardization (1)
- Steady-state weld pool (1)
- Steel (1)
- Steel and Al (1)
- Steels (1)
- Strain field (1)
- Strain fields prediction (1)
- Strain measurement (1)
- Strain rate (1)
- Strain-rate (1)
- Stress-strain behavior (1)
- Super martensitic filler material (1)
- Superalloy (1)
- Superelliptic Lamé curves (1)
- Support structures (1)
- Surface cracks (1)
- Surface roughness (1)
- Surface texturing (1)
- Susceptibility to cracking (1)
- Sustainability assessment (1)
- System technology (1)
- TIG welding (1)
- TRIP (1)
- TRIP - transformation induced plasticity (1)
- Tandem Gas Metal Arc Welding (1)
- Tandem gas metal arc welding (1)
- Tandem welding (1)
- Temperature Field Generation (1)
- Temperature distribution (1)
- Tensile Strength (1)
- Tensile performance (1)
- Tensile properties (1)
- Tensile resistance spot welding experiment (1)
- Tensileshear (1)
- Test method (1)
- Texture (1)
- Thermal energy generation (1)
- Thermal softening (1)
- Thermo physical simulation (1)
- Thermo-capillary convection (1)
- Thermo-fluid dynamics (1)
- Thermomechanical material properties (1)
- Thermophysical material properties (1)
- Thick materials (1)
- Thick metal plate welding (1)
- Thick plate (1)
- Thick plate welding (1)
- Thick walled parts (1)
- Thick-Walled Steel (1)
- Thick-plate welding (1)
- Thick-walled Structures (1)
- Ti - 6Al - 4V (1)
- Ti-6Al-4 V (1)
- Ti3Al2.5V (1)
- TiB2 (1)
- Tick plates (1)
- Tool torque (1)
- Torsion (1)
- Toughness (1)
- Transformation induced plasticity (1)
- Transformation induced plasticity (TRIP) (1)
- Transformation-induced plasticity (TRIP) (1)
- Traverse force (1)
- Tube welding (1)
- Tungsten carbide (1)
- Turbine blade (1)
- Turbine components (1)
- Turbine industry (1)
- Turbulence (1)
- Two-dimensional solidification (1)
- Two-run welding technique (1)
- Ultrasonic C-scan image (1)
- Ultrasonic field (1)
- Ultrasonic non-destructive evaluation (1)
- Unalloyed steels (1)
- V-notch impact toughness (1)
- Vacuum (1)
- Vapor recondensation (1)
- Vaporization (1)
- Variables influencing hot cracking (1)
- Vehicle bodies (1)
- Verzug (1)
- Viscoplasticity (1)
- Volumetric heat source (1)
- Wear resistance (1)
- Weld cracks (1)
- Weld defects (1)
- Weld end crater (1)
- Weld imperfections (1)
- Weld microstructure (1)
- Weld plan modification (1)
- Weld pool behavior (1)
- Weld pool geometry (1)
- Weld pool modeling (1)
- Weld pool shape approximation (1)
- Weld pool stabilization (1)
- Weld pool support (1)
- Weld root (1)
- Weld specimens (1)
- Weldbonded joint behaviour (1)
- Weldbonded joints (1)
- Weldbonding process reliability (1)
- Welding Current (1)
- Welding Simulation (1)
- Welding costs (1)
- Welding cracks (1)
- Welding distortion (1)
- Welding distortions (1)
- Welding jig (1)
- Welding of AlMg3 (1)
- Welding parameter (1)
- Welding process selection (1)
- Welding process simulation (1)
- Welding residual stress (1)
- Welding residual stresses (1)
- Welding under external loading (1)
- Weldx (1)
- Werkstoffe (1)
- Wineglass shape (1)
- Wire electron beam additive manufacturing (1)
- Wire feed laser beam welding (1)
- Wire-based additive manufacturing (1)
- Work-flow (1)
- Wärmequellenkonfiguration (1)
- X-ray computer tomography (1)
- X8Ni9 (1)
- YAG lasers (1)
- Zinc (1)
- Zink (1)
- cryogenic steel (1)
- deposition welding (1)
- digital image correlation (1)
- dual phase steel (1)
- hardness (1)
- highspeed plasma laser cladding (1)
- laser energy distribution (1)
- laser hybrid welding (1)
- laser welding (1)
- microstructure (1)
- resistance spot welding (1)
- sensitivity analysis (1)
- tensile strength (1)
- thermal cycles (1)
- thick plate welding (1)
- welding residual stresses (1)
Organisationseinheit der BAM
- 9 Komponentensicherheit (182)
- 9.3 Schweißtechnische Fertigungsverfahren (177)
- 9.6 Additive Fertigung metallischer Komponenten (3)
- 5 Werkstofftechnik (2)
- 5.2 Metallische Hochtemperaturwerkstoffe (2)
- 7 Bauwerkssicherheit (2)
- 7.7 Modellierung und Simulation (2)
- 9.0 Abteilungsleitung und andere (2)
- 5.5 Materialmodellierung (1)
Eingeladener Vortrag
- nein (25)
Ultrasound propagation in inhomogeneous anisotropic materials is difficult to examine because of the directional dependency of elastic properties. Simulation tools play an important role in developing advanced reliable ultrasonic non destructive testing techniques for the inspection of anisotropic materials particularly austenitic cladded materials, austenitic welds and dissimilar welds. In this contribution we present an adapted 2D ray tracing model for evaluating ultrasonic wave fields quantitatively in inhomogeneous anisotropic materials. Inhomogeneity in the anisotropic material is represented by discretizing into several homogeneous layers. According to ray tracing model, ultrasonic ray paths are traced during its energy propagation through various discretized layers of the material and at each interface the problem of reflection and transmission is solved. The presented algorithm evaluates the transducer excited ultrasonic fields accurately by taking into account the directivity of the transducer, divergence of the ray bundle, density of rays and phase relations as well as transmission coefficients. The ray tracing model is able to calculate the ultrasonic wave fields generated by a point source as well as a finite dimension transducer. The ray tracing model results are validated quantitatively with the results obtained from 2D Elastodynamic Finite Integration Technique (EFIT) on several configurations generally occurring in the ultrasonic non destructive testing of anisotropic materials. Finally, the quantitative comparison of ray tracing model results with experiments on 32 mm thick austenitic weld material and 62 mm thick austenitic cladded material is discussed.
Grain refinement is an important opportunity to improve mechanical properties of fusion welds and the weldability (susceptibility to solidification cracking) of the base metal. In this study, grain refinement was achieved in aluminium welds through additions of grain refiner to the weld metal. Increasing grain refiner additions led to a decrease of the weld metal mean grain size (down to −86 %). The grain refinement efficiency was the highest in commercial pure Al (Alloy 1050A, Al 99.5), followed by Alloy 6082 (Al Si1MgMn) and Alloy 5083 (Al Mg4.5Mn0.7). To investigate this clear influence of alloy content on grain size, the undercooling parameters P and Q were calculated. Temperature measurements revealed that solidification parameters such as solidification growth rate or cooling rate vary significantly along the solidification front, dependent upon torch speed and alloy. On the basis of this comparison, an analytical approach was used to model the columnar to equiaxed transition (CET). Moreover, wavelength dispersive X-ray spectroscopy (WDS) and transmission electron microscopy (TEM) analyses revealed particles rich in Ti and B that are probably TiB2 particles coated by Al3Ti nucleating Al grains during solidification. Also, Ti/B contents needed in commercial filler wires to allow optimum weld metal grain refinement were calculated dependent upon base alloy and welding process.
The safety of components or constructions is of great importance in the manufacturing and processing of metallic materials. Solidification cracking as well as the weldability of materials remain still for many years a highly contentious issues, particularly with regard to the causes of the hot crack formation. Many of studies have been conducted to determine the critical condition of occurrence of the solidification cracking. In this study different digital image correlation measuring techniques in conjunction with laser diodes as the illuminating source have been employed to measure the arising strain field during the laser welding process at the surface of the workpiece directed to the laser beam in the close vicinity of the weld pool. The Controlled Tensile Weldability test (CTW) was used to apply an external tensile load during the laser beam welding in order to generate the solidification cracks. The results showed that by means of those techniques it is possible to measure the strain field without any disturbances from the intense welding light or the smoke. Additionally, the strain and the strain rate as a critical factor determining solidification crack formation can be measured and analyzed.
Abstract
In the post-processing of large maritime components, a considerable amount of waste in the form of milling and grinding chips is produced. At the same time, additive manufacturing technologies have shown great potential in producing high-volume parts for maritime applications, allowing novel design approaches and short lead times. In this context, this study presents a sustainable approach to recycle and use aluminium bronze waste material, generated during post-processing of large cast ship propellers, as feedstock for laser-powder directed energy deposition. The recycling technology used to produce powder batches is inductive re-melting in combination with ultrasonic atomization. The derived metal powders are characterized using digital image analysis, powder flowability tests, scanning electron microscopy as well as energy dispersive X-ray spectroscopy. Compared to conventional metal powders produced by gas atomization, the recycled material shows excellent sphericity and a powder size distribution with a higher content of finer and coarser particles. Metallographic sections of deposited additively produced specimens show an increased hardness and reduced ductility, but also competitive densities and higher yield and ultimate tensile strength compared to cast material. The process chain shows high potential for the maritime sector to enable circular and sustainable manufacturing.
This work is devoted to the investigation of the lasermatter interaction during up to 20 kW ytterbium fiber laser welding of thick mild steel plates. The plume attenuation of a probe 1.3 µm wavelength diode laser beam as well as of continuous radiation in the 250–600 nm wavelength range was measured during welding with and without Ar shielding gas supply. The measured results allow the calculation of the average size and concentration of fine condensed metal particles in different plume areas using the multi-wavelength method and the Mie scattering theory. The plume temperature, which determines the condensation conditions, was measured by means of Fe I atom spectral line emission registration. The spatial distribution of the extinction coefficient in the welding plume was measured and the plume attenuation of the high-power fiber laser beam during the welding process was estimated.
Kornfeinung im Schweißgut kann die mechanischen Eigenschaften der Schweißnaht und die Schweißeignung des Grundwerkstoffs deutlich verbessern. Eine Möglichkeit korngefeintes Schweißgut zu erreichen, ist das Versetzen des Schmelzbades mit kornfeinenden Mitteln. In dieser Studie wird gezeigt wie Titan- und Borzusätze Korngröße und -struktur von WIG-Schweißnähten der Al-Legierung 5083 (Al Mg4,5Mn0,7) beeinflussen. Dazu wurden in einem Gießprozess stäbchenförmige Einlagen hergestellt, die aus Grundwerkstoff und definierten Zusätzen der Kornfeinungslegierung Al Ti5B1 bestanden. Sie wurden als Ersatz für einen Schweißzusatzwerkstoff in einer Nut im Grundwerkstoff untergebracht und im WIG-Verfahren überschweißt. Durch die Steigerung des Titan- und Borgehalts im Schweißgut konnte dessen mittlere Korngröße deutlich verringert werden. Außerdem wurde eine Änderung der Kornstruktur beobachtet. Die Ergebnisse können als Grundlage genutzt werden, um die empfohlene chemische Zusammensetzung von Schweißzusätzen für Lichtbogenschweißen von Aluminium anzupassen.
The geometry of the melt pool in laser beam welding plays a major role to understand the dynamics of the melt and its solidification behavior. In this study, a butt configuration of 15 mm thick structural steel and transparent quartz glass was used to observe the weld pool geometry by means of high-speed camera and an infrared camera recording. The observations show that the dimensions of the weld pool vary depending on the depth. The areas close to the weld pool surface take a teardrop-shape. A bulge-region and its temporal evolution were observed approximately in the middle of the depth of the weld pool. Additionally, a 3D transient thermal-fluid numerical simulation was performed to obtain the weld pool shape and to understand the formation mechanism of the observed bulging effect. The model takes into account the local temperature field, the effects of phase transition, thermo-capillary convection, natural convection and temperature-dependent material properties up to evaporation temperature. The numerical results showed good accordance and were furthermore used to improve the understanding of the experimentally observed bulging effect.