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Introduction to Biocompatible Glasses, Ceramics, and Glass-Ceramics
Glass ceramics and ceramics have a vast range of applications in tissue engineering and regenerative medicine. Biocompatible glasses and ceramics, including bioinert ceramics, bioactive glasses (BGs), and calcium phosphate have been reviewed in this chapter detailing the history, properties, structure, and application.Amirhossein Moghanian +3 more
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Bioactive glasses and glass-ceramics
Clinical Materials, 1993Bioactive materials are designed to induce a specific biological activity; in most cases the desired biological activity is one that will give strong bonding to bone. A range of materials has been assessed as being capable of bonding to bone, but this paper is solely concerned with bioactive glasses and glass-ceramics.
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Glass-ceramics for photonics: Advances and perspectives
2014 16th International Conference on Transparent Optical Networks (ICTON), 2014Glass-ceramics are nanocomposite materials which offer specific characteristics of capital importance in photonics. This kind of two-phase materials is constituted by nanocrystals embedded in a glass matrix and the respective composition and volume fractions of crystalline and amorphous phase determine the properties of the glass-ceramic.
Anna Lukowiak +14 more
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Glass Ceramics as Composite Fillers
Journal of Dental Research, 1974Glass ceramics are known that are transparent and colorless and have very low thermal expansions. Experiments are described to modify such glass ceramics by introduction of oxides of high atomic weight. Glass ceramics containing relatively large amounts of La 2O3 are promising as X-ray opaque filler materials with nearly zero thermal expansion.
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Bioactive Glasses and Glass-Ceramics
2021The application of some special glass compositions to make implantable biomaterials has revolutionized the medical field and introduced the concept of “surface-active” or “bioactive” materials, which have the ability to elicit a specific biological response at the interface with the surrounding tissue.
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Journal of the American Ceramic Society, 1999
Future applications for glass‐ceramics are likely to capitalize on designed‐in, highly specialized properties for the transmission, display, and storage of information. Glass‐ceramics with microstructures comprised of uniformly dispersed crystals <100 nm in size offer promise for many potential new applications as well as provide unique attributes ...
George H. Beall, Linda R. Pinckney
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Future applications for glass‐ceramics are likely to capitalize on designed‐in, highly specialized properties for the transmission, display, and storage of information. Glass‐ceramics with microstructures comprised of uniformly dispersed crystals <100 nm in size offer promise for many potential new applications as well as provide unique attributes ...
George H. Beall, Linda R. Pinckney
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2017
<div class="section abstract"> <div class="htmlview paragraph">This specification covers one type of crystallized glass ceramic in the form of cast and pressed shapes.</div></div>
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<div class="section abstract"> <div class="htmlview paragraph">This specification covers one type of crystallized glass ceramic in the form of cast and pressed shapes.</div></div>
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Properties of Glass-Ceramics, Photosensitive Glasses, and Photosensitive Glass-Ceramics
1970Photosensitive glasses possess a number of valuable properties, such as high strength, good stability, grain-free image, accurate reproducibility, multiplicity of contrast shades possible, and constancy of size in two and three dimensions, i.e., three-dimensionality of the image, which may extend to a certain depth or through the entire thickness of ...
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Journal of Materials Science, 1988
The dielectric properties of the strontium titanate aluminosilicate glass-ceramics described in the previous paper have been investigated over the frequency range of 10 to 1000 kHz and temperature range of −170 to 200° C. The dielectric properties were strongly dependent on the crystallization conditions, which determined the amounts of SrTiO3 and ...
S. L. Swartz +3 more
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The dielectric properties of the strontium titanate aluminosilicate glass-ceramics described in the previous paper have been investigated over the frequency range of 10 to 1000 kHz and temperature range of −170 to 200° C. The dielectric properties were strongly dependent on the crystallization conditions, which determined the amounts of SrTiO3 and ...
S. L. Swartz +3 more
openaire +1 more source