Podrobnosti záznamu

   Sedláček, R.
Autor článku
   Applications of composites based on glass fibers in human biomechanics
   Biocompatible Material Testing
   Bioinspired nanocomposite structures for bone tissue regeneration based on collagen, gelatin, polyamide and hydroxyapatite
   Biomaterials based on polysiloxanes and glass bibers
   Biomechanical properties of porous composites based on glass and polysiloxane
   Cages Based on the Carbon-Carbon Composites
   Characteristics of Materials to Be Used in Bone Surgery
   Characterization of the Interphase in Carbon Fiber Reinforced Polymeric Composite by a Modulus Mapping Test
   Comparison of biomechanical properties of carbon-carbon and glass composites
   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
   Composites based on bioglass
   Composites Based on Glass Fibers and Siloxane Matrix as a Promising Biomaterial
   Effect of Sterilization Processes on the Fiber/Matrix Interphase Properties of CF/PDMS Composite to be used in Orthopaedics
   Effects of thermal ageing on the static and cyclic mechanical properties of carbon fibres/PDMS composites for use in medicine
   Experiments Proposed when Developing Cages Based on Carbon-Carbon Composites
   Glass fibers and polysiloxanes based composite materials for biomedical applications
   Glass fibers based composites - biomedical applications
   The Influence of Steam Sterilization Processes on the Micro- and Macromechanical Properties of Polyamide Fiber-Reinforced PDMS Composites for Medical Device Applications
   The influence of sterilisation on the macromechanical properties of polyamide fibre-reinforced PDMS composites for orthopaedic applications
   Intervertebral Cages Based on Carbon-Carbon Composites - Experimental Measurements
   Intervertebral Cages Based on Carbon-Carbon Composites - Experimental Measurements
   Mechanical Testing of Carbon-Carbon Composite for Applications in Human Spine Surgery in the Form of Intervertebral Cages
   Nanowear Testing of Composite Materials
   Porous composite materials with polyamide reinforcement and siloxane matrix with nano-hydroxyapatite as biomaterials
   Some surface improvement and osseointegration