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It has stronger weathering resistance and weather resistance than stone
- Jul 03, 2018 -

In the field of building materials, since the Soviet Union invented the calendering method to prepare glass-ceramics in the 1960s and later invented the method of preparing glass-ceramic building decoration materials by sintering in Japan, this material has its high-grade decorative art and excellent machinery. Performance, chemical resistance (weathering weathering), extensive source of raw materials and low economic costs have gradually entered the high-end building materials market. Today, this glass-ceramic building material has been hailed as “the high-end decorative material of the 21st century”

Microcrystalline stone is called microcrystalline glass ceramic composite board in the industry. It is a high-tech product in the field of architectural ceramics. It is crystal clear, graceful and natural, and has different imitation stone textures and vivid colors. The appearance and decoration effect of the ghosts and the uncontaminated, easy to clean, and excellent internal physical and chemical properties, as well as the weathering resistance and weather resistance stronger than the stone, are favored by the high-end building materials market at home and abroad.

Glass-ceramic, also known as glass-ceramic, is a novel phase-in-phase material for the microcrystalline phase and the glass phase. It is different from pure crystalline phase materials and a considerable portion of solid materials. Among these materials, the glass phase is usually small (more than a few), and the glass-ceramic, especially the glass-ceramic of decorative building materials, contains more glass phase (sometimes up to 50%). However, it is also much different from pure glass, which does not contain any crystalline phase under normal conditions, while microcrystalline glass contains a crystalline phase (mostly micron-sized microcrystalline phases). The biggest difference between the microcrystalline phase and the glass phase is that the particle is ordered in the internal structure of the former, and the particle is remotely disordered in the internal structure of the latter; the former produces diffraction lines by X-ray irradiation, while the latter Cannot produce diffraction lines.

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