Therefore, it is used in many large-scale applications due to its richness, crystallinity, high heat and chemical properties.
For centuries, Timely has been used to produce jewelry and precious stones. Its hardness, polishability, crystallinity and durability make it an excellent material in this field. Seasonal varieties commonly used as jewelry and precious stones include topaz, amethyst, amethyst, seasonal rose, lapis lazuli and opal. Seasons with microcrystalline (aphanitic) structure, such as agate and jasper, are also used as gems.
Glass manufacturing is one of the main uses in time. Glass is made of a compound called silicon dioxide (SiO2) (a colorless crystalline compound, such as quartz, sand or flint). This silica (which must have an ultra-purity of 99.9%) is melted and cooled to the required shape or size. Optical timely crystals are used to manufacture lasers, microscopes, telescopes, electronic sensors and scientific instruments.
Nearly half of the consumption comes from the glass industry. Indian glass industry usually uses quartz sand to make container glass, flat glass, flat glass, special glass, glass fiber, bottles, table glassware and other glassware. Timely supply industry
The crystal contains an oscillator, which can vibrate at a precise frequency and help to adjust the movement of the watch or clock, thus making it an accurate watch. Timely crystals have piezoelectric effect (they can generate electricity when subjected to mechanical stress), which is also used to keep time.
Quartz sand is usually mixed with clay, resin sodium silicate, oil and other binders for molding and metal casting. The characteristics of quartz sand, such as high melting point, high strength and fire resistance, are helpful to metal casting process. In addition, after cutting, casting or drilling, the rough edges on the metal should be smoothed with microcrystalline stone.
In the metal casting industry, quartz sand is also added to molten metal to remove impurities, mainly oxygen. Sand adheres to impurities and is then easily removed.
Quartz sand is used to produce refractory bricks because it has absolute strength and heat resistance. It is also used as a flux to melt the rough edges of metals after casting, cutting or drilling.
Quartz sand is considered as an excellent abrasive because of its hardness (harder than most natural minerals) and corrosion resistance. In addition, it is also used for sand blasting, glass grinding media, detergent (powder) and grinding and sawing gravel.
Silica sand, together with water and other chemicals, is pressed into bedrock stratum through wells under high pressure. High pressure fracturing bedrock, silica sand injected into cracks and fixed in place, created a channel for natural gas to flow into the well from bedrock stratum. This process is called hydraulic fracturing.
Engineering quartz stone, industrially made from primitive materials, is usually used as table tops and plates in residential and commercial buildings.
Some characteristics of engineering quartz stone make it different from natural stones such as granite and marble. The timely porosity makes it resistant to dirt. Therefore, the timely countertop is easy to clean, will not leave stains, and is beautiful and luxurious.
Novaculite is a kind of cryptocrystalline or microcrystalline material, which has been used to manufacture medical cutting equipment, cutting weapons and grinding cutting tools for thousands of years, even today. Sharpening is used to sharpen knives, while grinding stones or smooth stones are used to sharpen the edges of tools and knives.
Laboratory crucible is a container used to store chemicals when conducting chemical or thermal tests. The melting point is very high and the chemical properties are not active. Therefore, it is used to make timely crucibles, and chemical reactions and tests are carried out in the laboratory. The advantages of timely crucible include low expansion, thermal shock resistance and excellent dimensional stability. Melt aging made of aging particles is usually used to make such containers.
Just like the production of clocks and watches, timely crystal is also used in electronic products, because when it is bent or compressed, its surface will generate current. For many years, time crystal has been used to provide accurate frequency for all radio transmitters, radio receivers, GPS transmitters and computers. This accuracy comes from the fact that the timely crystal is unaffected by most solvents and maintains a crystallinity of several hundred degrees Fahrenheit.
Quartz sand and ground aging (aging in powder state) are used as adhesives, putty and fillers in paint and rubber manufacturing. This powder has the characteristics of durability, chemical inertia, strength and wear resistance.
Quartz sand, because of its durability and large particles, is used in railway and mining industries to make traction to minimize fracture. It is also used in leisure golf courses, volleyball courts, baseball fields, children's sandbox and beaches.
In the ceramic industry, quartz sand is used to make ceramic tiles. The presence of silica in sand helps to provide white color for ceramic utensils and help to make ceramic bodies.
Also known as rotten stone, it is high-quality crystalline silica, which usually appears in powder form. It is used to polish stains in jewelry and wood, as filler, plastic, paint and rubber, and in the production of toothpaste and soap. Tripoli particles are round, not sharp, so they are considered as a mild abrasive.
Synthetic crystals are grown in the laboratory. They are artificially produced by dissolving silicon diode (SiO2) in alkaline aqueous solution at high temperature. Although this process is slow, it provides high-purity and high-quality crystals, almost as good as the timely crystals found in nature. The synthetic timely crystal has the advantages of acid resistance, corrosion resistance, high temperature resistance, wear resistance, impact resistance, compression resistance, bending resistance and penetration resistance.
Synthetic crystals are used in electronic industry, semiconductor and solar industry, photomask and even lithography tools.
It has certain physical, chemical and electrical characteristics, which makes it highly available in a wide range of industries and departments. It has been used in a wide range of industries, from jewelry making and luster ability of gems, to brick making in refractory industry, to piezoelectric clocks and watches.