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Spherical quartz powder
Has excellent properties including smooth surface, large surface area specific, high hardness, stable chemical properties. The spherical particles are fluid and can be mixed evenly with resin to create a film. The resin amount is low, while the quartz powder filling is high.
The lower the thermal conductivity and the smaller thermal expansion coefficient the molding compound, the higher the amount of quartz powder. The performance of electronic components is improved when they are closer to monocrystalline silicon’s thermal expansion coefficient.
It is made by purifying and ultra-finely grinding natural quartz stone, and then passing it through a high temperature field. This causes its phase, shape and crystal to change instantly, from solid to molten to solid, and from crystalline to amorphous. His preparation methods are currently mainly high-temperature laser melting, high temperature melting injection and gas combustion.
High Temperature plasma Melting
The high temperature plasma melting method sprays quartz powder into the plasma flame using high-temperature gases generated by AC/DC arc plasma. The powder is heated to melt and instantly evaporate, then quenched. A cyclone and cloth bag are used to collect the powder. This produces spherical silica powder. It is characterized as a high heating temperature which can achieve a temperature field more than five times higher than chemical burning (above 3000K). A high temperature, a high heat level and a high active atmosphere cause the chemical reaction to proceed quickly. This leads to the rapid formation high temperature phase compounds, which are difficult for liquid phase chemistry to synthesize. Such as nitrides carbides and borides etc. After rapid cooling, particles that have left the plasma will not grow.
The technology of plasma is extremely difficult. The magnetic and electric properties of plasma have an impact on the plasma temperature field. The temperature field has a small and concentrated size. Second, the generation of plasma energy is achieved by the current flowing through the ionized medium. A plasma that is too diluted will interfere with the current, and the effect will be lost. It is hard to control how fast the product spheroidizes.
High Temperature Melt Injection
The high-temperature injection method involves melting the material to a liquid by putting it in a hot field. When the melt comes out of the ejector it is sprayed high-pressured air, which breaks up the melt and disperses it into mist. When the droplets cool down, they shrink back into smooth spheres. High temperature melt spraying allows for the most spheroidization, and to maintain amorphous rates. The key technologies of viscous quartz melting atomization in furnaces, high temperature materials for the quartz, and preventing secondary pollution are still not fully developed. This makes it difficult to make high-purity spherical powder.
Gas Combustion Flame method
Gas combustion flames are produced by using acetylene and hydrogen in conjunction with natural gas or other fuel gases. Air or oxygen is used to support the flame. The airflow is used to transport the angular quart powder into the flame. As the angular particles pass through the flame field of high temperature, they are first melted to amorphous powder. It shrinks immediately into spherical powder when it exits the high temperature field. The cyclone then collects the final product. Thermodynamics, gas dynamics and particle hydrodynamics are all involved in this method. The temperature field in plasma high-temperature fires is much lower and there are also fewer factors that influence it. It does not involve electromagnetic theory or the flow ions in an electromagnetic field. It’s easier to control conditions by solving the problem of movement. Equipment manufacturing is simplified, industrialization is easy, and development prospects are better.
Tech Co., Ltd. is a professional
oxide powder
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