Podrobnosti záznamu

Jméno
   Hulejová, H.
Autor článku
   Applications of composites based on glass fibers in human biomechanics
   Biocompatibility of C-C composites covered with PyC and p-HEMA
   Biological and biomechanical properties of the carbon composite and polyethylene implant materials
   Biological properties of the intervertebral cages made of titanium constaining a carbon-carbon composite covered with different polymers
   Biomaterials based on polysiloxanes and glass bibers
   Biomechanical properties of porous composites based on glass and polysiloxane
   Bone-friendly Intervertebral Cages
   Bone replacement based on glass fibers and polysiloxane
   Bone replacements based on glass fibers and polysiloxane
   Cages Based on the Carbon-Carbon Composites
   Comparison of biomechanical properties of carbon-carbon and glass composites
   A composite based on glass fibers and siloxane matrix as a bone replacement
   Composite materials based on glass fabrics and siloxane matrix as substitutive and connective elements of bones in orthopaedics
   Composite materials based on glass fibers and polysiloxanes for bone surgery applications
   Glass fibers and polysiloxanes based composite materials for biomedical applications
   Glass fibers based composites - biomedical applications
   The influence of a short-term tissue culture medium storage on the mechanical properties of composites based on glass fibers and polysiloxane
   Kompozitní materiály s otevřenou pórovitostí pro náhrady kostní tkáně
   Osseointegration improvement of glass fibers based composites
   Porous composites based on siloxane resin for hard tissue replacements