KIT - Karlsruhe Institute of Technology
image/svg+xml
Institute for Applied Materials – Materials Science and Engineering
Home
Legals
Privacy Policy
Accessibility
Sitemap
KIT
KIT
de
Education
Start
Education
Education
Courses
Consultation
Exam
Theses
Research
Start
Research
Research
Hybrid and Lightweight Materials
Start
Research
Hybrid and Lightweight Materials
Hybrid and Lightweight Materials
Process development
Start
Research
Hybrid and Lightweight Materials
Process development
Process development
Hybrid deep drawing
LFD injection molding
Composite peening
Additive foam sandwich structures
Material development for electric engines
Process and material hybridization
Material characterization
Start
Research
Hybrid and Lightweight Materials
Material characterization
Material characterization
Hybride laminates
Intrinsic hybrid-bonds
CoDiCo composites: structural properties
CoDiCo-Composites: Mechanical properties
Recycling concepts for reinforced polymers
Physical Metallurgy
Start
Research
Physical Metallurgy
Physical Metallurgy
Materials Development
Start
Research
Physical Metallurgy
Materials Development
Materials Development
ODS Steels
Mo-base alloys
High-Entropy Alloys
Start
Research
Physical Metallurgy
High-Entropy Alloys
High-Entropy Alloys
Refractory High-Entropy Alloys
Deformation Mechanisms
Additive Manufacturing
Start
Research
Physical Metallurgy
Additive Manufacturing
Additive Manufacturing
Materials Compounds from Composite Materials
Eutectic Mo-Si-Ti alloys
Directional Solidification
Start
Research
Physical Metallurgy
Directional Solidification
Directional Solidification
NiAl-(Cr,Mo) alloys
Atome Probe Tomography
Materials and Processes
Start
Research
Materials and Processes
Materials and Processes
Materials
Start
Research
Materials and Processes
Materials
Materials
Molding compound development for powder injection molding
Polymer-based functional composites
Material development for generative manufacturing
Development of electrolyte systems
Processes
Start
Research
Materials and Processes
Processes
Processes
Subjects
Start
Research
Materials and Processes
Processes
Subjects
Subjects
Micro injection molding
Start
Research
Materials and Processes
Processes
Subjects
Micro injection molding
Micro injection molding
LIGA2.X-Process
Micro Compression injection molding
Two-component (2C-) micro injection molding including 2nd electroplating
Powder injection molding
Two-component powder injection molding
Inmold labeling powder injection molding
Ein-Komponenten-Pulverspritzgießen
Tungsten powder injection molding
Two-component injection molding
Sintering and hot isostatic pressing
Molding compound development and adaption
Machines
Start
Research
Materials and Processes
Processes
Machines
Machines
Arburg 470A
Arburg Allrounder 420C
babyblast Christmann, additional injection unit I/10-P
Ferromatik Electra 50S
CIM sintering furnace
Twin-Screw Extruder Brabender DSE 20
Foil casting bench
High Pressure Capillary Viscometer Rheograph
Twin-Screw Extruder Brabender DSE 20
Measuring Kneader Brabender W 50 EHT
Metal sinter furnace MUT ISO_1900-200
Micro injection molding machines Microsystem 50
Two-component micro injection molding machine Microsystem 50
PVT 500 Measuring Instrument
Production and Component Behaviour
Start
Research
Production and Component Behaviour
Production and Component Behaviour
Heat Treatment
Mechanical Surface Treatment
Additive Manufacturing
Material Modelling and Process Simulation
Non-destructive Material Characterization
Start
Research
Production and Component Behaviour
Non-destructive Material Characterization
Non-destructive Material Characterization
Micro Computed Tomography
Ultrasonic Testing
Magnetic Barkhausen Noise
Fatigue
Start
Research
Fatigue
Fatigue
FREQTIGUE
BEETHOVEN2
Thermomechanical treatment of high-strength steels
Pro-FeAl
Structure and Stress Analysis
Start
Research
Structure and Stress Analysis
Structure and Stress Analysis
Multi-Layered Materials
Computed Tomography
LTT weld materials
Textured Materials
RS-Analysis on Textured Material
Residual Stress Development LTT Filler Materials
In-Situ investigation of the case-hardening process
In-Situ Synchrotron X-ray Residual Stress Analysis of the Laser Surface Hardening Process
Defects in Materials
Start
Research
Defects in Materials
Defects in Materials
Sputter-Deposition und additive Fertigung
Wasserstoff-Beladung
Röntgenographische Methoden
Rastersondenmethoden, optische Mikroskopie und konfokale Weißlichtmikroskopie
Elektronenmikroskopische Methoden
Atomsondentomographie
Methoden der mechanischen Materialcharakterisierung
Methoden der elektrischen Widerstandsmessung
Finite-Elemente-Simulationen (FEM)
Staff
Start
Staff
Staff
Professors
Retired professors or professors on leave
Administration
Scientists
Technicans
Mechanical Workshop
Laboratories & Workshop
Start
Laboratories & Workshop
Laboratories & Workshop
Mechanical Testing
Production Engineering
Materials Synthesis
Materialography
Mechanical Workshop
Electrochemical Laboratory
X-Ray Laboratory
Workstation-Pool
Injection Molding Lab
Publications
Start
Publications
Publications
Papers
Start
Publications
Papers
Papers
Archive CN
Doctoral thesis
Events
Start
Events
Events
Werkstoffkolloquium
Cooperations
Start
Cooperations
Cooperations
RTG 2561
Start
Cooperations
RTG 2561
RTG 2561
Projects
Researchers
Publications
Job offers
Links
Startpage
Home
Legals
Privacy Policy
Accessibility
Sitemap
Institute for Applied Materials – Materials Science and Engineering
Startpage
Research
Structure and Stress Analysis
LTT weld materials
Startseite
Education
Research
Staff
Laboratories & Workshop
Publications
Events
Cooperations
Job offers
Links
Research
Hybrid and Lightweight Materials
Physical Metallurgy
Materials and Processes
Production and Component Behaviour
Fatigue
Structure and Stress Analysis
Defects in Materials
Structure and Stress Analysis
Multi-Layered Materials
Computed Tomography
LTT weld materials
Textured Materials
RS-Analysis on Textured Material
Residual Stress Development LTT Filler Materials
In-Situ investigation of the case-hardening process
In-Situ Synchrotron X-ray Residual Stress Analysis of the Laser Surface Hardening Process
LTT weld materials
