1. Advanced ceramics field:
Nanometer hafnium powder can be used to prepare advanced ceramic materials. Due to the high purity and high-temperature stability of nano hafnium powder, its ceramic material has high strength, toughness, corrosion resistance, high-temperature resistance, and other excellent properties. It can be widely used in high-temperature furnace tubes, engine parts, refractory materials, lasers, automotive and aerospace, and other fields.
2. Electronic device field:
Nanometer hafnium powder can prepare electronic devices, such as tubes, transistors, etc. Due to the high electrical conductivity, good thermal conductivity, and small thermal expansion coefficient of nano-hafnium powder, the electronic devices prepared by the nano-hafnium powder have the advantages of high stability, high efficiency, and small size. They can be widely used in communication, computers, television, and other fields.
3. Biomedical materials field:
Nano hafnium powder can prepare biomedical materials like bone nails and plates. Due to the biocompatibility and bioactivity of nano-hafnium powder, the biomedical materials prepared by it have a similar elastic modulus and hardness to human bone, can be closely combined with human bone, and can be widely used in fracture fixation, dentistry, and other fields.
4. Other fields:
Nano hafnium powder can also be used in catalyst fields, such as synthetic ammonia catalysts, automobile exhaust purification catalysts, etc. Due to the high surface area and surface activity of nanometer hafnium powder, the catalyst prepared by it has high activity and stability. It can be widely used in the chemical industry and environmental protection fields.
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The main production methods of nanometer hafnium powder are sol-gel and chemical precipitation. Here's a breakdown of the two methods:
Sol-gel method:
Sol-gel method is a commonly used method to prepare nanomaterials. The basic steps of the method are as follows: hafnium salt and oxidizer are mixed in an appropriate solvent to form sol; Then the sol-gel becomes a solid gel by heating and drying. Finally, the solid gel was calcined to obtain nano hafnium oxide powder. The advantages of this method are high purity, uniform particle size, high controllable system, but high production cost.
Chemical precipitation method:
The chemical precipitation method is a simple and easy method to prepare nanomaterials. The basic steps of this method are mixing hafnium salt and an oxidizing agent in a suitable solvent to form a mixed solution. Then, the mixture was placed in a reactor heated to high temperatures and pressure to trigger the hydrothermal reaction. Finally, the reaction products were separated, washed, and dried to obtain nano hafnium oxide powder. The advantages of this method are:
In short, various production methods for nano hafnium powder and suitable methods can be selected according to different needs. However, no matter which method is used, it is necessary to ensure that the nano hafnium powder produced has the characteristics of high purity, high activity, and uniform particle size.
As an important nanomaterial, nanometer hafnium powder has a broad market prospect. With the progress of science and technology and industry development, the application field of nano hafnium powder will continue to expand and deepen. The following are several aspects of the nano hafnium powder market prospects.
Electronic information industry:
With the rapid development of the electronic information industry, the demand for electronic devices is getting higher and higher. As a high-performance electronic material, Nano hafnium powder will be widely used in electron tubes, transistors, and other fields. In addition, with the rapid development of the semiconductor lighting industry, nano hafnium powder will also be widely used in LED chip manufacturing.
Energy industry:
With the rapid development of the energy industry, the demand for energy conversion and storage is getting higher and higher. Nano hafnium powder will be widely used as a high-performance energy material in fuel cells, solar cells, and other fields.
Medical device industry:
With the rapid development of the medical device industry, the requirements for biomedical materials are getting higher and higher, and nano hafnium powder, as a high-performance biomedical material, will be widely used in medical device manufacturing.
Environmental treatment industry:
With the rapid development of the environmental treatment industry, the requirements for environmental protection materials are getting higher and higher, and nano hafnium powder, as a high-performance environmental protection material, will be widely used in environmental treatment.
Nano Hafnium Hf Powder Properties |
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Other Names | hf powder, hafnium powder, hafnium powder price, hafnium powder supplier, hafnium powder msds. |
CAS No. | 7440-58-6 |
Compound Formula | Hf |
Molecular Weight | 178.49 |
Appearance | white fine powder |
Melting Point | 2227 ℃ |
Solubility in water | N/A |
Density | 13.31 g/cm3 |
Purity | >99% |
Particle Size | 5-10 micron |
Boling point | 4602 ℃ |
Specific Heat | N/A |
Thermal Conductivity | N/A |
Thermal Expansion | N/A |
Young's Modulus | N/A |
Exact Mass | N/A |
Monoisotopic Mass | N/A |
Nano Hafnium Hf Powder Health & Safety Information |
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Safety Warning | N/A |
Hazard Statements | N/A |
Flashing point | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety Statements | N/A |
RTECS Number | N/A |
Transport Information | N/A |
WGK Germany | N/A |