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Institute for Applied Materials – Materials Science and Engineering
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    • Hybrid and Lightweight Materials
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      Hybrid and Lightweight Materials
      • Process development
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        • Hybrid deep drawing
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        • ODS Steels
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        • Materials Compounds from Composite Materials
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        • NiAl-(Cr,Mo) alloys
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        • Molding compound development for powder injection molding
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          • Micro injection molding
            • 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
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          • 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
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          • 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
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      • Heat Treatment
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        Non-destructive Material Characterization
        • Micro Computed Tomography
        • Ultrasonic Testing
        • Magnetic Barkhausen Noise
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      • FREQTIGUE
      • BEETHOVEN2
      • Thermomechanical treatment of high-strength steels
      • Pro-FeAl
    • Structure and Stress Analysis
      • 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
      • 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)
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Institute for Applied Materials – Materials Science and Engineering
  • Startpage
  • Research
  • Structure and Stress Analysis
  • LTT weld materials
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    • Education
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  • 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
Anlage_Altenkirch

In-situ Synchrotron-Diffraktion am  Instrument PDIFF@ANKA (Karlsruhe)

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KIT – The Research University in the Helmholtz Association
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