Shaanxi BLOOM Tech Co., Ltd. is one of the most experienced manufacturers and suppliers of zirconium boride cas 12045-64-6 in China. Welcome to wholesale bulk high quality zirconium boride cas 12045-64-6 for sale here from our factory. Good service and reasonable price are available.
Zirconium borate is a chemical substance with the molecular formula of ZrB2. Property gray crystal powder. Zirconium borate has three components, namely, zirconium borate, zirconium diboride, and zirconium tribromide. Only zirconium diboride is stable in a wide temperature range and resistant to high temperatures. It has high strength at room temperature and high temperature. Good heat shock resistance, low resistance, oxidation resistance under high temperature. Zirconium diboride is mainly used in industrial production.
Zirconium diboride is a hexagonal crystal, gray crystal, or powder, with a relative density of 5.8 and a melting point of 3040 ℃. High-temperature resistance, high strength at room temperature, and high temperature. Good heat shock resistance, low resistance, oxidation resistance under high temperature. The melting point is about 3000 ℃. With metallic luster.
Zirconium diboride is a hexagonal crystal form, gray crystal or powder, and the melting point is 3040 ℃. High-temperature resistance, high strength at room temperature, and high temperature. Good heat shock resistance, low resistance, oxidation resistance under high temperature. The melting point is about 3000 ℃. With metallic luster. It is metallic. The resistance is slightly lower than that of zirconium. It is stable in a large temperature range after heating. Although the melting point is high, it can be sintered at a lower temperature. It is prepared by mixing zirconium with boron carbide and boron nitride and heating it to 2000 ℃ in argon gas flow.
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Morphological |
powder |
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Melting point |
3100-3500 ° C |
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RTECS No. |
zh7150000 |
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Density |
6,1 g/cm3 |
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Storage conditions |
- 20 ° C |
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solubility |
It is soluble in water |
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Hazard description h228, Precautions p210-p240-p241-p280-p370+p378a, Dangerous goods sign xn, Hazard category code 20/21/22, Safety instructions 36, Dangerous goods transport No. un3178, WGK Germany 3, TSCA Yes, HazardClass 4.1, PackingGroup III
Physical and chemical properties of zirconium borid: zirconium borid has three components, namely zirconium diboride, zirconium diboride, and zirconium tribromide. Only zirconium diboride is stable in a wide temperature range. Zirconium diboride is mainly used in industrial production.
Zirconium borid (ZrB2) is a high-tech material with unique physical and chemical properties, characterized by high melting point, high hardness, high strength, good electrical and thermal conductivity, oxidation resistance, and chemical stability
Application of zirconium boride in aerospace field
1. Manufacturing of high-temperature components for spacecraft:
With the development of modern aircraft towards high speed, high altitude, high thrust, and greater safety, higher requirements have been put forward for high-temperature materials. In extreme environments such as hypersonic long-term flight, cross atmospheric flight, and rocket propulsion systems, various key parts or components of aircraft, such as nose cones, wing leading edges, and engine hot ends, not only need to be able to withstand high temperatures (greater than 2000 ℃), but also require anti-oxidation, anti erosion, and anti thermal shock properties. ZrB2 ceramic materials, as one of the important ultra-high temperature materials, play a crucial role in the manufacturing of these high-temperature components.
Due to its high melting point (approximately 3246 ℃), ZrB2 can maintain stable physical and chemical properties in extreme high temperature environments without melting or deformation. Meanwhile, its high strength and rigidity enable the manufactured components to withstand the enormous pressure and stress generated during flight. For example, in rocket engine thrusters, ZrB2 material can be used to manufacture critical high-temperature components, ensuring stable operation of the engine in high-temperature and high-pressure working environments, and improving the reliability and performance of the rocket.
2. Components of space ship anti propulsion system
ZrB2 can be used to manufacture components for reverse propulsion in space ships. During the reverse propulsion process of a spacecraft, components need to be able to withstand the impact of high temperature and high-speed airflow. The high strength and oxidation resistance of ZrB2 make it an ideal choice. It can manufacture components such as high-temperature resistant and wear-resistant anti propulsion nozzles, ensuring the stability and safety of space ships during the anti propulsion process. These components are capable of long-term operation in high-temperature environments, reducing wear and damage, extending the lifespan of spacecraft, and lowering the cost of space missions.
3. Spacecraft thermal protection system:
When spacecraft enter the atmosphere, they will experience severe friction with the air, generating extremely high temperatures, which poses a serious challenge to the thermal protection system of spacecraft. ZrB2 can be used to manufacture thermal protective coatings or components for spacecraft, effectively blocking the transfer of high-temperature heat and protecting the safety of equipment and personnel inside the spacecraft. Its excellent antioxidant properties can prevent the coating from being oxidized at high temperatures, thereby maintaining stable thermal protection performance. For example, in the leading edge of the wings and nose cone of the space shuttle, ZrB2 thermal protection material can withstand the high temperature during re-entry into the atmosphere, ensuring the safe return of the space shuttle to Earth.
4. Structural components of spacecraft:
In addition to high-temperature components, ZrB2 can also be used to manufacture other structural components of spacecraft. Due to its high strength and low density, structural components made of ZrB2 can reduce the weight of spacecraft while ensuring strength. This is very important for spacecraft, as reducing weight can lower launch costs and improve the payload capacity of the spacecraft. For example, in the structural framework of some small satellites or space probes, the use of ZrB2 material can improve the overall performance and reliability of the satellite.
5. Spacecraft electronic equipment packaging:
Electronic devices on spacecraft need to operate stably in harsh space environments, including the effects of high temperature, low temperature, radiation, and other factors. ZrB2 has good electrical and thermal conductivity, as well as chemical stability, and can be used as a packaging material for manufacturing electronic devices. It can effectively protect electronic components from external environmental interference and damage, while timely dissipating the heat generated by electronic components to ensure the normal operation of electronic devices. For example, in some high-precision spacecraft sensors and control systems, ZrB2 encapsulation materials can provide reliable protection, ensuring the accuracy and stability of the equipment.
Application of zirconium boride in semiconductor materials
1. Semiconductor material additive:
ZrB2 can be used as an additive in semiconductor materials to improve their performance. In the preparation process of some semiconductor materials, adding an appropriate amount of ZrB2 can improve the electrical, thermal, and mechanical properties of the materials. For example, in the preparation of high-power semiconductor devices, the addition of ZrB2 can improve the thermal conductivity of the semiconductor material, enhance the heat dissipation capability of the device, and thus improve the stability and reliability of the device's operation. Meanwhile, ZrB2 can also improve the crystal structure of semiconductor materials, reduce defects and impurities, enhance carrier mobility, and improve the electrical performance of devices.
2. Transparent electrode material:
ZrB2 can be used to manufacture transparent electrodes with high infrared transmittance. In some special semiconductor devices, such as infrared detectors, infrared light-emitting diodes, etc., transparent electrodes are required to have good infrared transmittance so that infrared light can smoothly enter or be emitted from the inside of the device through the electrodes. ZrB2 transparent electrodes have high conductivity and good infrared transmittance, which can meet the requirements of these devices. It can effectively transmit electrical signals while reducing the absorption and reflection of infrared light, improving the sensitivity and performance of the device.
3. Capacitor electrode material:
ZrB2 can also be used to manufacture high capacitance capacitor electrodes. In electronic devices, capacitors are important energy storage components, and their performance directly affects the stability and reliability of electronic devices. ZrB2, as an electrode material for capacitors, has a high specific surface area and good conductivity, which can increase the capacitance value of capacitors. At the same time, its chemical stability can ensure the stability of the capacitor's performance during long-term use, and it is not prone to problems such as leakage and breakdown. For example, in some high-performance electronic circuits, capacitors using ZrB2 electrodes can provide more stable voltage and current, improving the overall performance of the circuit.
4. Thermoelectric material:
ZrB2 has the property of converting thermal energy into electrical energy and can be used as a thermoelectric material in the semiconductor field. In some environments with large temperature differences, such as certain parts of spacecraft, industrial waste heat recovery systems, etc., ZrB2 thermoelectric materials can use temperature differences to generate electricity, achieving energy recovery and utilization. Its high thermal conductivity and electrical conductivity result in high thermoelectric conversion efficiency, providing stable power support for electronic devices. For example, installing ZrB2 thermoelectric modules between certain high-temperature and low-temperature components of a spacecraft can convert the heat generated by the high-temperature components into electrical energy.
5. Semiconductor thin film materials:
Zirconium boride can be used to prepare semiconductor thin film materials. ZrB2 thin films can be deposited on substrates using techniques such as Physical Vapor Deposition (PVD) and Chemical Vapor Deposition (CVD). ZrB2 thin films have unique electrical and optical properties and can be used to manufacture various semiconductor devices. For example, in the manufacturing of field-effect transistors (FETs), ZrB2 thin films can be used as gate materials to regulate the conductivity of the transistor. In addition, ZrB2 thin films can also be used to manufacture optoelectronic devices such as photodetectors and solar cells, utilizing their photoelectric conversion properties to achieve the mutual conversion of light energy and electrical energy.
6. High temperature resistant components of semiconductor devices
During the operation of semiconductor devices, sometimes high temperatures are generated, requiring high-temperature resistant components to ensure the normal operation of the devices. ZrB2, due to its high melting point and excellent high-temperature stability, can be used to manufacture high-temperature resistant components for semiconductor devices, such as packaging bases and lead frames. These components can maintain stable size and performance in high-temperature environments, ensuring reliable connections and electrical performance between semiconductor devices and other components. For example, in some high-power semiconductor lasers, the packaging base made of ZrB2 can withstand the high temperature generated during laser operation, protect the laser chip from damage, and improve the service life and stability of the laser.
7. Auxiliary materials in semiconductor manufacturing process:
ZrB2 can also be used as an auxiliary material in the semiconductor manufacturing process. For example, in processes such as etching and deposition, ZrB2 can be used as a mask material or protective layer material. Its high hardness and chemical stability can protect the semiconductor substrate from chemical erosion and physical damage during the process, while ensuring the accuracy and precision of the process. In addition, ZrB2 can also be used to manufacture some key components in semiconductor manufacturing equipment, such as heating elements, electrodes, etc., to improve the performance and reliability of the equipment.
We are the supplier of Zirconium Boride.
The synthetic zirconium borate powder is mainly prepared by carbothermal reduction of ZrO2 powder and carbon black or graphite powder. The reaction equation is:
3ZrO2+B4C+8C+B2O3=3ZrB2+9CO↑
The above reaction process belongs to the solid-state reaction type, and the reaction process is controlled by material diffusion.
The disadvantage of this method is that zirconium powder is unevenly mixed with carbon black powder or graphite powder, and the activity of carbon black or graphite powder is low, resulting in incomplete reduction of zirconium and becoming impurities in the product.
In addition, the remaining carbon black or graphite powder in zirconium borate powder has low activity, so higher temperatures (above 600 ° C) are required during decarbonization to eliminate carbon monoxide or carbon dioxide produced by carbon in the oxidizing atmosphere.
The higher the temperature, the higher the oxygen content in the powder, resulting in a decrease in the quality of zirconium borate powder.
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FAQ
What is zirconium diboride used for?
Zirconium diboride (ZrB2) is an ultra high termparature ceramic powder. With good high temperature strength, it is used in the aerospace industry for hypersonic flight or rocket propulsion. ZrB2 parts are hot pressed and machined into the required shape.
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