High Purity Titanium Ti Powder CAS 16962-40-6, 99%
Description of Titanium powder ：
Titanium powder has a high melting point, density, strength, corrosion resistance, and low expansion coefficient. Titanium powder has a melting point of up to 1660°C, much higher than the melting point of most metal powders. It has a 4.5g/cm3 density, which is heavier than most metal powders. In addition, titanium powder has excellent strength and can maintain stability in various corrosive media. These properties make titanium powder have unique advantages in many fields.
The composition of titanium powder mainly includes titanium, oxygen, nitrogen, hydrogen, and other elements. Among them, the content of titanium is usually more than 98%, making titanium powder a high-quality metal powder. Oxygen is the most abundant impurity element in titanium powder, mainly from the oxidation reaction of titanium ore and processing. In addition, titanium powder also contains a certain amount of nitrogen, hydrogen, and other gas elements. The content of these elements is usually low but has a certain impact on titanium powder's physical and chemical properties.
In addition to pure titanium powder, there are many alloy forms of titanium powder, such as titanium alloy powder. These alloy powders have more excellent properties, such as high strength and corrosion resistance. In addition, by adding different elements, titanium powder with specific functions can also be prepared, such as conductive titanium powder, wear-resistant titanium powder, etc.
Features of Titanium Ti powder CAS 16962-40-6:
Application of Titanium powder ：
Titanium powder has been widely used in the field of aerospace. Because titanium powder has high strength, corrosion resistance, and low expansion coefficient, it can manufacture high-end equipment parts such as aircraft, rockets, and satellites. For example, titanium powder can be used to manufacture components of aircraft engines, such as turbine blades, compressor blades, etc., which can improve the performance and life of the engine. In addition, titanium powder can also be used to manufacture spacecraft parts, such as rocket engines, satellite supports, etc., which can improve the reliability and safety of spacecraft.
Titanium powder has also been widely used in the medical field. Because titanium has good biocompatibility with the human body, does not cause an immune response, and has corrosion resistance and low fatigue, Titan powder is a good material for manufacturing medical devices, such as surgical instruments, implants, prosthetics, etc. For example, titanium powder can manufacture medical devices such as artificial joints and spinal fixators, which enhance your medical treatment and improve patients' living conditions.
Sports equipment field:
Titanium powder is also widely used in the field of sports equipment. Because titanium powder is lightweight and high strength, it can manufacture light, strong, and durable sports equipment. For example, titanium powder can be used to manufacture sports equipment such as golf clubs, bicycle frames, and skis, improving the equipment's performance and service life.
Titanium powder is also widely used in the automotive field. Since titanium powder has strength, high durability, and corrosion resistance, it is a great material for producing automobile parts, such as engine and suspension systems. For example, titanium powder can be used to manufacture automotive engine cylinders, pistons, and other parts, improving the car's performance and life.
Titanium powder is also widely used in the field of construction. Because titanium has good processability and decoration, it can manufacture structural support and decorative parts. For example, titanium powder can be used to manufacture steel frames, railings, roofs, etc., improving the aesthetics and safety of buildings.
Powder Metallurgy field:
Powder metallurgy is an advanced metal processing technology, and titanium powder is one of the important raw materials in powder metallurgy. Mixing titanium powder with other metals or non-metallic elements can prepare titanium matrix composites and alloys with excellent properties. These materials have high strength, high corrosion resistance, and excellent processing properties and are widely used in machinery manufacturing, electronics, energy, and other fields.
Titanium powder can also be used as a pigment and filler in coatings. Because titanium dioxide has the characteristics of high whiteness, high hiding power, and weather resistance, it can be used as a raw material for white coatings, paints, and other products. At the same time, titanium powder can also be used with other pigments to prepare various paint or paint colors to meet the needs of different fields.
In short, Titanium powder has been extensively employed in many areas due to its superior chemical and physical properties. With the continuous development of science and technology, the application field of titanium powder will continue to expand, bringing more convenience and benefits to human production and life.
Production Method of Titanium powder ：
The smelting method is one of the main methods for preparing titanium powder, including vacuum and atmospheric melting. Vacuum melting is mainly used to prepare high-purity titanium powder, while atmospheric melting is mainly used to prepare titanium alloy powder.
In vacuum smelting, titanium raw materials are heated to high temperatures in a vacuum furnace to melt and evaporate impurities and gases. Subsequently, the molten titanium liquid is poured into the cooling system to prepare titanium powder. The advantage of this method is that the titanium powder prepared has high purity, but the production cost is high.
In atmospheric melting, the titanium raw material is heated to high temperatures with the alloying elements so that it melts and is fully mixed. Subsequently, the molten alloy is poured into the cooling system to prepare a titanium powder. The advantage of this method is that the production cost is lower, but the purity of the prepared titanium powder is lower.
Hydrogenation is another important method to prepare titanium powder: react titanium oxide with hydrogen to produce metal titanium and water and then purify titanium powder through vacuum distillation.
In the hydrogenation process, titanium oxide is reacted with hydrogen gas at high temperatures to form metal titanium and water. This exothermic reaction allows for rapidly preparing large quantities of titanium metal. Then, by vacuum distillation purification technology, impurities and gases in titanium metal are removed, and high-purity titanium powder is prepared. The advantage of this method is that the titanium powder prepared has high purity, but the production cost is high.
Electrolysis is a common method for preparing metal powders, and titanium powders can also be prepared by electrolysis. In electrolysis, the titanium compound is dissolved in the electrolyte. After passing a direct current, the titanium ions in the electrolyte are discharged on the cathode and form titanium metal.
In electrolysis, a titanium compound, such as titanium sulfate, is first dissolved in the electrolyte. Subsequently, direct current is applied, and parameters such as current density and electrolyte concentration are adjusted to discharge titanium ions on the cathode and form titanium metal. The advantage of this method is that the titanium powder prepared has high purity, but the production cost is high.
Mechanical grinding method:
Mechanical grinding method is a method of converting titanium oxides into titanium powder by mechanical grinding. This method puts the titanium oxide and the grinding medium together in the ball mill and other equipment. The titanium oxide is gradually refined into small particles and finally prepared into titanium powder by controlling the grinding time and grinding strength.
In the mechanical grinding method, the type of grinding medium and the type of grinding equipment greatly influence the size and purity of the prepared titanium powder. Therefore, high-purity and small particle-size titanium powder can be prepared by selecting the appropriate grinding medium and grinding equipment. The advantage of this method is that the production cost is low, but the size and purity of the prepared titanium powder are limited to a certain extent.
The chemical method is the method of converting titanium compounds into titanium powder by chemical reaction. This method is to dissolve the titanium compound in a solvent and add a precipitant or reducing agent and other chemical reagents so that it has a chemical reaction and produces titanium metal.
Prospect Market of Titanium powder ：
Since titanium powder has strong corrosion resistance, high strength, and low expansion coefficients in the aerospace sector, it can manufacture parts for high-end equipment such as aircraft, rockets, and satellites. With the continuous development of global aerospace technology, the market demand for titanium powder is also increasing.
In the medical field, titanium powder is utilized to create medical devices, including implants, surgical instruments, prosthetics, etc. With the global population's aging and the medical level's improvement, the application of titanium powder in the medical field will also continue to increase.
Because titanium powder is lightweight and high strength in sports equipment, it can be used to manufacture sporting equipment, like bicycle frames, golf clubs, skis, and so on. With the continuous development of the global sports industry, the market demand for titanium powder is also increasing.
In the automotive field, Because titanium powder possesses the properties of strength, high strength, and corrosion resistance, it is used to make automotive parts, such as engine parts and suspension systems. With the development of the global automotive industry, the market demand for titanium powder is also increasing.
In construction, because titanium has good processability and decoration, it can be used to manufacture structural support and decorative parts. With the acceleration of the global urbanization process, the market demand for titanium powder will continue to increase.
Storage Conditions of Titanium Ti powder:
The damp reunion will affect its dispersion performance and using effects, therefore, this product should be sealed in a vacuum and stored in a cool and dry room and it should not be exposure to air. In addition, the Titanium Nanoparticles should be avoided under stress.
Ti Nanoparticles Cautions:
1. Ti nanoparticle is flammable. It should be gently placed and avoided violent vibration and friction.
2. Titanium Nanoparticles should be prevented from moisture, heat, impact and sunlight.
3.The user must be a professional (This person must know how to use Titanium Ti Nanoparticle.)
Packing & Shipping of Titanium Ti powder:
We have many different kinds of packing which depend on the Titanium Ti powder quantity.
Titanium Ti powder packing:vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Titanium Ti powder shipping: could be shipped out by sea, by air, by express, as soon as possible once payment receipt.
Iberocruceros advanced material Nano Technology Co. Ltd. (Iberocruceros) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and Nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.
If you are looking for high-quality titanium powder, please feel free to contact us and send an inquiry. (email@example.com)
Titanium Powder Properties
|Other Names||titanium nanopowder, titanium nano-particles,|
titanium nano-powder, nanotitanium, nano-titanium
|Melting Point||1660 ℃|
|Boiling Point||3287 ℃|
|Solubility in H2O||N/A|
|Thermal Expansion||(25 °C) 8.6 µm·m-1·K-1|
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Titanium Powder Health & Safety Information
|Hazard Codes||P210-P231-P280-P302 + P334-P370 + P378-P422|
|Transport Information||UN1383- class 4.2 - PG 1|