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Hybrid composite based on dental matrix
Almásyová, Zuzana ; Bystřický, Zdeněk (referee) ; Přikryl, Radek (advisor)
This bachelor´s thesis deals with the study of the effect of alumina fillers addition on mechanical properities of experimental composite based dimethacrylate matrix. Important properities and aspects of particle composite, composite mechanics and surface treatments methods were described in the theoretical section of this work. As a studied system was dimethacrylate matrix with micro-filler in form of barium glass and nano-filler in form of alumina. The filler was modified by two silanization methods. Surface treatment of the filler was studied by termogravimetry and infrared spectroscopy. Morphology of fracture areas was examined using scanning electron microscopy with the aim to characterize dispersion of particles in the matrix. Mechanical properties of prepared composite materials were established by the testing of the flexural properties. The best silanization method of particular filler was determined. The addition of alumina had a negative effect on the resulting mechanical properties of prepared composite.
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Plasma surface modification of powder fillers
Štulrajterová, Lujza ; Bystřický, Zdeněk (referee) ; Přikryl, Radek (advisor)
This bachelor’s thesis deals with the study of particulate-filled composite materials and the influence of filler surface modifications on the properties of the composite. Important aspects of particulate fillers, used fillers and possible surface treatments were characterized in the theoretical section of this work. Dimethacrylate matrix with halloysite nanotubes as filler was chosen as a studied system. The filler was modified by low-temperature plasma under low pressure and by silanization. Surface of the modified filler was studied by Raman spectroscopy and X-ray photoelectron spectroscopy (XPS). Particle size distribution was measured by photon cross-correlation spectroscopy and dynamic light scattering (DLS). Mechanical properties of prepared particulate composites were established by the testing of the flexural properties. Fracture areas were analyzed by using scanning electron microscopy (SEM). The results showed no effects of the plasma treatment on the mechanical properties. Silane treatment of the filler surface illustrated improvement of the composite material strength.
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Hybrid composite based on dental matrix
Almásyová, Zuzana ; Bystřický, Zdeněk (referee) ; Přikryl, Radek (advisor)
This bachelor´s thesis deals with the study of the effect of alumina fillers addition on mechanical properities of experimental composite based dimethacrylate matrix. Important properities and aspects of particle composite, composite mechanics and surface treatments methods were described in the theoretical section of this work. As a studied system was dimethacrylate matrix with micro-filler in form of barium glass and nano-filler in form of alumina. The filler was modified by two silanization methods. Surface treatment of the filler was studied by termogravimetry and infrared spectroscopy. Morphology of fracture areas was examined using scanning electron microscopy with the aim to characterize dispersion of particles in the matrix. Mechanical properties of prepared composite materials were established by the testing of the flexural properties. The best silanization method of particular filler was determined. The addition of alumina had a negative effect on the resulting mechanical properties of prepared composite.
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Plasma surface modification of powder fillers
Štulrajterová, Lujza ; Bystřický, Zdeněk (referee) ; Přikryl, Radek (advisor)
This bachelor’s thesis deals with the study of particulate-filled composite materials and the influence of filler surface modifications on the properties of the composite. Important aspects of particulate fillers, used fillers and possible surface treatments were characterized in the theoretical section of this work. Dimethacrylate matrix with halloysite nanotubes as filler was chosen as a studied system. The filler was modified by low-temperature plasma under low pressure and by silanization. Surface of the modified filler was studied by Raman spectroscopy and X-ray photoelectron spectroscopy (XPS). Particle size distribution was measured by photon cross-correlation spectroscopy and dynamic light scattering (DLS). Mechanical properties of prepared particulate composites were established by the testing of the flexural properties. Fracture areas were analyzed by using scanning electron microscopy (SEM). The results showed no effects of the plasma treatment on the mechanical properties. Silane treatment of the filler surface illustrated improvement of the composite material strength.
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