Austrian Academy of Sciences ERICH SCHMID INSTITUTE OF MATERIALS SCIENCE
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  • Research
    • Complex Materials
    • Deformation, Fatigue and Fracture
    • Micro- and Nanomechanics
    • Micro- and Nanostructure Characterization
    • Nanomaterials by Severe Plastic Deformation
    • Archiv
  • Facilities
    • Acconity Midi+
    • AFM
    • Bruker Dimension Icon AFM
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    • Casting
    • Focussed Ion Beam
    • Hystograph HG 200
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    • Metal Powder Production
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    • Nanoscribe Photonic Professional GT2
    • Olympus LEXT OLS 4100 - CLSM
    • Scanning Electron Microscopy
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    • X-ray diffraction
  • Publications
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Research

  • Complex Materials
    • PHASE SEPARATION IN METALLIC GLASSES: DESIGN, PHASE STABILITY AND PROPERTIES
    • BIOREMIA (BIOfilm-REsistant Materials for hard tissue Implant Applications)
    • IMPROVEMENT OF CRACKING RESISTANCE OF METALLIC LAYERS BY INTERFACIAL ENGINEERING OF DUCTILE LAYERS FOR FLEXIBLE OSR
    • Nanoarchitected films for unbreakable flexible electronics (NanoFilm)
    • FLEX-E-TEST
    • Thin film buckle-delamination - Dundurs parameters influence
    • Metallic thin film fatigue dominated by interface character (Fatiface)
  • Deformation, Fatigue and Fracture
    • Driving force parameters for defects in materials
    • Design concepts for new fracture resistant materials
    • Recycling-oriented alloy design for next-generation of sustainable metallic materials
    • Behavior of cracks in inhomogeneous materials
  • Micro- and Nanomechanics
    • Eco Solder
    • Fabrication and testing of micro- and nanostructured composites produced by means of laser processing/writing
    • Failure of nano-structured high-strength tungsten fine wires
    • Nanofatigue
    • TOUGHIT - TOUGH INTERFACE TAILORED NANOSTRUCTURED METALS
    • Nanofracture – Origin of fracture in high strength materials
  • Micro- and Nanostructure Characterization
  • Nanomaterials by Severe Plastic Deformation
    • Using hydrogen as a reversible alloying element to unravel fundamental questions of nanoplasticity (REVEAL)
    • Hydrogen storage in porous metal hydride-polymer hybrid materials
    • Cohesive Interfaces by Interfacial Design (CoInS)
    • SpdTuM - SPD nanostructured magnets with tuneable properties
    • Bulk rare earth free permanent magnets (REFMAG)
    • Self-lubricating nanoscaled metal matrix composites
  • Archiv
    • EPPL - Enhanced Power Pilot Line
    • High cycle thermo-mechanical fatigue behavior of semiconductor thin films
    • Fabrication and thermo-mechanical behavior of nanoporous materials
    • High temperature mechanical testing of novel Cu-Nb nanocomposites
    • Measuring Local Residual Stresses and Fracture Toughness in Thin Films
    • Deformation Mechanisms of Nano-Porous Hexagonal Metals
    • Advanced nanoindentation for the extraction of material flow curves
    • In-situ deformation experiments on a TRIP steel
    • Deformation- and fracture behavior of advanced materials
    • Microstructure and temperature effects on submicron plasticity of bcc metals
    • Femtosecond laser application in materials science
    • ERC Project "INTELHYB"
    • Selective laser melting technology for the preparation of high performance CuZr matrix amorphous composites
    • FWF Project „Electro-mechanical fatigue in metal films on polymer substrates
    • Optimization of Soft Ferromagnetic Powders for Telecommunication
    • FWF Project „Electro-mechanical fatigue in metal films on polymer substrates
    • FWF Project "Size effects on deformation behavior of thin film metallic glasses"
    • Micro Fracture Mechanics in SEM
    • Thermoplastic Net-Shaping of Low-Density and Biocompatible Ti-based Metallic Glasses for Dental Implants
    • Adhesion Techniques for Films on Flexible Substrates
    • Bulk-nanocomposite synthesis through severe plastic deformation
    • Effect of grain architecture on the ductility in ultrafine grained and nanocrystalline SPD materials
    • USMS - Ultrastrong Materials
    • Deformation-induced grain growth in nanocrystalline copper
    • Generation of ultrafine grained Ni-CNT composites by severe plastic deformation
    • Improving the stability of nanocrystalline metals
  • ESI
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    • Institute
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Research

  • Complex Materials
  • Deformation, Fatigue and Fracture
  • Micro- and Nanomechanics
  • Micro- and Nanostructure Characterization
  • Nanomaterials by Severe Plastic Deformation
  • Archiv
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Erich Schmid Institute of Materials Science
of the Austrian Academy of Sciences

Jahnstrasse 12
8700 Leoben
Austria
UID: ATU37116303

 

Secretary Austrian Academy of Sciences:

Phone: +43 3842 804 111
e-mail: daniela.brunner(at)oeaw.ac.at

Secretary University Leoben:

Phone: +43 3842 804 112
e-mail: sabine.wilfling(at)unileoben.ac.at

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