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Materials Technology

  • Home MaTe
  • Research
    • Research programs
    • Group publications
      • Posters
      • Movies
        • Polymer Technology
          • Foam
          • Honeycomb
          • Semicrystalline polymer during uniaxial tension
          • Deformation of RVE Polycarbonate
          • Deformation of RVE Polystyrene
          • Deformation of RVE Polystyrene with rubber shell-filled voids
          • Twin screw extrusion
          • Distributive mixing in a 2D cavity flow
          • Crystallization
          • Mixing: Kenics mixer with correctly oriented blades
          • Mixing: Kenics mixer with correctly oriented blades
          • Rain
          • Flow past a confined excentric cylinder and in our cross-slot device
          • Binodal decomposition
          • Spinodal decompostion
          • 3D spinodal decomposition
          • Spinodal decomposition under shear
          • Fireworks1
          • Fireworks2
          • Fireworks3
          • Drop breakup 1
          • Drop breakup 2
          • Drop coalescence
          • Foam drop formation
          • Foam drop structure 2
          • Foam drop in shear flow (4 drops)
          • Foam drop in shear flow (8 drops)
          • Viscoelastic effects in Polymer Coextrusion
        • Cell and tissue engineering
          • Swelling hydrogel experiment
          • Stented heart valve
          • Comparison of isotropic verses fiber reinforced leaflet
          • Stentless heart valve
          • Fluid structure interaction in a tri-leaflet, stented aortic heart valve
        • Mechanics of Materials
          • Miniature mixed mode bending setup
          • Self adaptive cohesive zone
          • Brain slice
          • 3D analysis of aluminum extrusion
          • 3D velocity analysis of aluminum extrusion:
          • Delamination in an IC back-end stack
          • Fine-blanking simulation
          • Score forming simulations
          • Simulation of Arcan test - crack growth and load-displacement response
          • Simulation of Arcan test - evolution of damage and stress 2
          • Tensile test on steel specimen
        • Orthopaedic Biomechanics
          • Evaluation of cell damage in Engineered Muscle Tissue
          • Free swelling of 3D intervertebral disc model
        • Cardiovascular Biomechanics
          • Pulsatile flow in curved tube
        • Microsystems
          • Artificial Cilia for Active Micro-Fluidic Mixing
          • Swarm of rotating particle chains
          • Disaggregation of micro-particle clusters
          • Chaotic fluid mixing
          • Rotating magnetic particle chain in a viscous fluid
          • Longer cilia formation
          • Magnetic artificial cilia
  • Laboratories
    • Labs overview
      • Laboratory for Cell & Tissue Engineering
        • Equipment overview
      • Microscopy Laboratory
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      • Polymer Technology
      • Mechanics of Materials
      • Structure and Rheology of Complex Fluids
      • Microsystems
      • Soft Tissue Biomechanics & Engineering
      • Cardiovascular Biomechanics
      • Orthopaedic Biomechanics
    • BSc courses
      • Polymer Technology
      • Mechanics of Materials
      • Soft Tissue Biomechanics & Engineering
        • 8MB00 - Mechanics
        • 8TB00 - Continuum mechanics
        • 8QB01 - Pericardial patches
        • 8WA00 - Heart and lung
        • 8QA11 - Tissue damage: simulate, visualize and analyze
        • 8MC00 - Numerical analysis of continua
        • 8WC00 - Regeneration
      • Cardiovascular Biomechanics
        • 0LAUA0 - Project on Clinical Use of Physiological Modeling
        • 8P079 - Minor project Biomedical physiology
        • 8Z036 - BMT Science class: Prof. van de Vosse
        • 8QA03 - Mechanics of a Blood Vessel
        • 8VB20 - Model based cardiovascular pathophysiology
        • 8VB10 - Measurements and modeling in the clinic
        • 8VB00 - Transport Physics
        • 3D030 - Flow and diffusion
        • 0LAB0 - Introduction to Modeling: dynamic systems
        • 3NBB0 - Applied Physical Sciences formal
      • Orthopaedic Biomechanics
        • 8MB00 - Mechanics
        • 8W230 - Thermodynamics
        • 8W330 - Immunology and Infection
        • 8W130 - Tissue engineering
        • 8W280 - Tissue mechanics
        • 8QB01 - Pericardial patches
        • 8TB00 - Continuum mechanics
        • 8TA00 - Cell and tissue
    • MSc courses
      • Polymer Technology
      • Mechanics of Materials
      • Soft Tissue Biomechanics & Engineering
        • 8W100 - Numerical Analysis of Continua II
        • 8W030 - Numerical analysis of continua I
        • 8W300 - Stem cells
        • 8S130 - Course molecular and cell biological techniques
      • Cardiovascular Biomechanics
        • 8W320 - Vascular mechanics
        • 8W220 - Cardiovascular Biomechanics: special topics
        • 8F250 - Clinical module Cardiovascular diseases B
        • 8F110 - Clinical module Cardiovascular diseases A
        • 8W310 - Cardiovascular fluid-structure interaction
        • 8W160 - Cardiac Modeling
        • 8W270 - Fluid biomechanics
        • 8W110 - Pathophysiology of the cardiovascular system
        • 8W090 - Cardiovascular fluid mechanics
      • Orthopaedic Biomechanics
        • 8R000 - Introduction to Regenerative Medicine and Technology
        • 8S130 - Course molecular and cell biological techniques
        • 8F170 - Clinical module Orthopaedics
        • 8W060 - Biological mixtures
        • 8W130 - Tissue engineering
        • 8W280 - Tissue mechanics
        • 8W080 - Bone Mechanics
        • 8W010 - Cartilage mechanics
      • Microsystems
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Eindhoven

Phone number: +31 (0)40 247 9111

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PO Box 513

5600 MB Eindhoven

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