METAL POWDER

Product Details:

Tungsten metal powder is a fine particulate form of tungsten, a dense and high-melting metal. It is composed of small tungsten particles with sizes typically ranging from a few micrometers to nanometers. Here are some key characteristics and properties of tungsten metal powder:
1. High Density: Tungsten has one of the highest densities among all metals, making tungsten metal powder highly dense as well. It has a density of approximately 19.3 grams per cubic centimeter (g/cm³), which is comparable to gold and uranium. The high density makes tungsten metal powder suitable for applications where weight is a critical factor, such as in aerospace components, balancing weights, and radiation shielding.
2. High Melting Point: Tungsten has the highest melting point of all metals, reaching approximately 3,410 degrees Celsius (6,170 degrees Fahrenheit). This property is retained in tungsten metal powder, making it ideal for high-temperature applications. Tungsten powder is used in the production of high-temperature furnace parts, heating elements, and electrical contacts that require resistance to extreme temperatures.
3. Excellent Hardness and Strength: Tungsten metal powder exhibits exceptional hardness and strength, ranking among the hardest materials. It has a high Mohs hardness value and excellent mechanical properties, including tensile strength and stiffness. These characteristics make tungsten metal powder suitable for applications that demand high strength and wear resistance, such as cutting tools, armor-piercing ammunition, and wear-resistant coatings.
4. Resistance to Corrosion: Tungsten is highly resistant to corrosion, even in harsh environments. Tungsten metal powder maintains this corrosion resistance, making it suitable for use in applications where protection against corrosion is essential, such as in chemical processing equipment, marine components, and electronic devices.
5. Electrical and Thermal Conductivity: Tungsten has good electrical and thermal conductivity properties. Tungsten metal powder is used in applications that require efficient heat dissipation, such as in heat sinks, electrical contacts, and high-power electronic devices. Additionally, tungsten powder is used as an additive in the production of copper-tungsten composites, which offer a combination of high electrical conductivity and heat resistance.
6. Refractory Properties: Tungsten metal powder exhibits excellent refractory properties, meaning it can withstand high temperatures and resist deformation. It has low thermal expansion and retains its strength and shape at elevated temperatures. These properties make tungsten powder suitable for applications in refractory materials, crucibles, and high-temperature furnace components.
7. Radiation Shielding: Due to its high density, tungsten metal powder is an effective material for radiation shielding. It is used in medical and industrial applications to protect against X-rays, gamma rays, and other forms of ionizing radiation.
Tungsten metal powder finds applications in various industries, including aerospace, defense, electronics, energy, and medical sectors. Ongoing research focuses on improving its properties, developing advanced fabrication techniques, and exploring new applications that utilize its unique characteristics.

Product Details:

Titanium microparticles are tiny particles of the chemical element titanium, which are typically smaller than 100 micrometers in size. They are commonly used in a variety of industries, including pharmaceuticals, aerospace, and biomedical engineering.
Titanium microparticles have a range of physical and chemical properties that make them useful for different applications. For example, they have high strength, low density, and excellent corrosion resistance, which makes them ideal for use in aerospace and other high-performance applications. In biomedical engineering, titanium microparticles are often used to create implants, as they are biocompatible and can integrate with living tissue.
There are different methods used to produce titanium microparticles, including gas atomization, ball milling, and laser ablation. The specific method used can affect the size, shape, and surface properties of the particles, which in turn can affect their suitability for different applications.
Overall, titanium microparticles are an important material with a wide range of potential applications in various industries.

Product Details:

Silicon Metal Powder is a high-purity form of elemental silicon, typically produced by refining quartz (SiO₂) in an electric arc furnace and then milling it into fine particles. It is known for its excellent chemical stability, high melting point (~1,414°C), low thermal expansion, and good electrical conductivity.

Additional Information:

• Production Capacity: 1000

Product Details:

Magnesium metal powder is a fine particulate form of elemental magnesium (Mg), a lightweight, silvery-white alkaline earth metal. It is well-known for its high strength-to-weight ratio, excellent machinability, and reactive nature, especially in finely divided powder form. Because of its low density (~1.74 g/cm³) and high energy release during combustion, it is widely used in pyrotechnics, metallurgy, and chemical applications.

Product Details:

Boron powder refers to finely divided particles of the chemical element boron, which has the symbol B and atomic number 5. Boron is a metalloid known for its unique properties and wide range of applications.
Here are some key features and properties of boron powder:
1. Particle Size: Boron powder consists of particles varying in size, typically ranging from a few micrometers to several hundred micrometers. The particle size can impact the reactivity, flowability, and surface area of the powder.
2. Purity: Boron powder is available in various purity levels, typically ranging from 95% to 99.9% pure. Higher purity boron powder is often required for applications where chemical cleanliness and precise composition are critical.
3. Chemical Reactivity: Boron is chemically reactive, particularly at high temperatures. Boron powder readily reacts with oxygen, nitrogen, and certain other elements or compounds. This reactivity can be harnessed in various chemical synthesis and manufacturing processes.
4. Lightweight: Boron is lightweight, with a density significantly lower than many metals. This property makes boron powder attractive for applications where weight reduction is desired, such as aerospace and automotive industries.
5. High Melting Point: Boron has a high melting point of approximately 2076 degrees Celsius (3769 degrees Fahrenheit). This high melting point makes boron powder suitable for applications involving high-temperature environments.
6. Semiconductor Properties: Boron exhibits semiconducting behavior, making it useful for electronic applications. Boron powder can be incorporated into semiconductors, sensors, and other electronic devices.
Applications of boron powder include:
- Pyrotechnics: Boron powder is utilized in pyrotechnic compositions, including flares, igniters, and propellants, due to its high energy content and reactivity.
- Ceramics and Refractories: Boron powder can be used as an additive in ceramics and refractories to improve their mechanical strength, thermal resistance, and wear resistance.
- Nuclear Industry: Boron powder is used in the nuclear industry for its ability to absorb neutrons, making it suitable for neutron shielding, control rods, and other nuclear applications.
- Aerospace and Defense: Boron powder finds applications in the aerospace and defense sectors, including lightweight structural materials, composites, and high-energy fuels.
- Metallurgy: Boron powder is employed as an additive in the production of specialty alloys and steels to enhance their strength, hardness, and heat resistance.
It's important to note that the specific properties and applications of boron powder can vary depending on factors such as the particle size, purity, and specific requirements of the intended application. For precise information, it is recommended to consult technical specifications or seek guidance from materials science and engineering experts.

Product Details:

Osmium metal powder is a finely divided form of osmium, a dense and brittle transition metal with atomic number 76. It is typically produced through processes such as chemical reduction or mechanical milling. Here are some important features and properties of osmium metal powder:
1. Particle Size and Morphology: Osmium metal powder consists of small particles with a range of sizes, typically in the micrometer or nanometer range. The powder particles can have various shapes, including irregular, spherical, or agglomerated structures, depending on the production method and processing conditions.
2. High Density: Osmium is one of the densest naturally occurring elements, and osmium metal powder inherits this property. It has a density of approximately 22.6 grams per cubic centimeter (g/cm³), making it one of the densest materials known. This high density makes osmium suitable for applications where weight or compactness is a critical factor, such as in radiation shielding or high-pressure experiments.
3. High Melting and Boiling Point: Osmium has an extremely high melting point of around 3,033 degrees Celsius (5,491 degrees Fahrenheit) and a similarly high boiling point. Osmium metal powder retains these high-temperature properties, making it suitable for applications that require resistance to high temperatures or harsh environments.
4. Hardness and Brittleness: Osmium is a very hard and brittle metal. Osmium metal powder shares these characteristics, making it challenging to machine or work with. Care must be taken to handle and use osmium metal powder properly to avoid breakage or excessive wear on equipment.
5. Chemical Reactivity: Osmium metal is highly resistant to corrosion and oxidation. It is relatively inert under normal conditions, making it stable in various environments. Osmium metal powder maintains this chemical stability, making it suitable for applications where resistance to corrosion is essential, such as in certain electrical contacts or chemical reaction vessels.
6. Catalytic Properties: Osmium metal and its powder form can exhibit catalytic activity. It can be used as a catalyst or catalyst support in certain chemical reactions, particularly those involving hydrogenation or oxidation processes.
7. Electrical Conductivity: Osmium is a good electrical conductor. Osmium metal powder shares this property and can be used in applications that require good electrical conductivity, such as in electrical contacts or certain electronic devices.
8. Toxicity: Osmium metal and its compounds are highly toxic and can pose health hazards if mishandled or ingested. Proper safety precautions should be followed when working with osmium metal powder to avoid exposure or contamination.
Osmium metal powder is a relatively rare and specialized material with unique properties. It is primarily used in niche applications such as catalysts, radiation shielding, and high-temperature environments. Due to its high cost and toxicity, osmium metal powder is not commonly encountered in everyday applications.

Additional Information:

• Item Code: goood
• Delivery Time: 15days
• Packaging Details: 200gm 500gm. 1kg

Product Details:

Manganese powder refers to finely divided particles of manganese metal. It is produced by various methods, including atomization, electrolysis, or chemical reduction of manganese compounds. Manganese powder exhibits several properties that make it useful in various industrial applications.
Here are some key characteristics and applications of manganese powder:
1. Chemical reactivity: Manganese is a highly reactive metal, and manganese powder readily reacts with oxygen in the air to form manganese oxide. This reactivity makes it useful in various chemical processes, including the production of manganese compounds and alloys.
2. Alloying agent: Manganese powder is commonly used as an alloying agent in the production of steel and other metal alloys. It enhances the strength, hardness, and corrosion resistance of the alloys. Manganese alloys, such as ferromanganese and silicomanganese, are widely employed in the steel industry.
3. Desulfurization agent: Manganese powder is used as a desulfurization agent in steelmaking processes. It reacts with sulfur to form manganese sulfide, which helps remove sulfur impurities from the molten metal, improving the quality and properties of the steel.
4. Magnetic properties: Manganese powder exhibits ferromagnetic properties, making it suitable for applications in magnetic materials and devices. It is used in the production of magnetic alloys, such as permalloy, which find applications in electrical transformers, magnetic shielding, and electronic components.
5. Battery materials: Manganese powder is utilized in the production of batteries, particularly in rechargeable lithium-ion batteries. Manganese compounds, such as manganese oxide, are used as cathode materials, providing high energy density and stable performance.
6. Pigments: Manganese powder is employed as a pigment in ceramics, paints, and other materials. Manganese oxide pigments impart various shades of brown, black, and gray to the finished products.
7. Catalysts: Manganese powder is used as a catalyst in several chemical reactions. It promotes oxidation and reduction reactions and finds applications in organic synthesis, petroleum refining, and environmental catalysis.
8. Nutritional supplement: Manganese is an essential trace element for human health. In some cases, manganese powder is used as a nutritional supplement to address manganese deficiencies in the diet.
It is important to handle manganese powder with care, as it can be a respiratory and skin irritant. Proper safety precautions, such as using appropriate personal protective equipment and working in well-ventilated areas, should be followed when handling or processing manganese powder.
Manganese powder plays a significant role in various industries, including steelmaking, batteries, pigments, and catalysis. Its unique properties and diverse applications make it a valuable material in numerous industrial processes and products.

Product Details:

Titanium (Ti) is a strong, lightweight, and corrosion-resistant metal widely used in aerospace, medical implants, additive manufacturing (3D printing), and high-performance engineering. In powder form, it becomes highly valuable for manufacturing processes like powder metallurgy and metal additive manufacturing.

Additional Information:

• Production Capacity: 5000
• Delivery Time: 7-10 Working Days

Product Details:

Tantalum microparticles are fine powders made of the element tantalum (Ta), with particle sizes typically ranging from about 1 µm to 100 µm.
They are known for their high corrosion resistance, excellent biocompatibility, and high melting point (≈3017 °C), making them valuable in specialized industrial, electronic, and medical applications.

Key Properties Production Methods

Tantalum microparticles can be made by:

• Gas atomization – molten tantalum is atomized by inert gas into fine droplets.

• Hydrogen-decrepitation and milling – bulk tantalum is embrittled with hydrogen, then crushed and milled.

• Chemical reduction – tantalum pentachloride or pentoxide is reduced with sodium or magnesium.

• Electrolysis in molten salts – to deposit pure tantalum, then grind to desired size.

Applications

1. Electronics

   • Capacitors (tantalum capacitors use microparticles for large surface area)

   • Thin-film resistors

   • High-performance semiconductors

2. Medical

   • Bone implants and dental applications (coatings or porous structures)

   • Drug delivery microcarriers

3. Aerospace and Defense

   • High-temperature structural parts

   • Coatings for corrosion and wear resistance

4. Additive Manufacturing

   • Used in powder metallurgy for printing or sintering tantalum components

5. Specialized Chemical Equipment

   • Components exposed to strong acids or corrosive environments

Safety & Handling

• Dust hazard: Fine tantalum powder can be a fire/explosion risk in air when dispersed.

• Inhalation: Avoid breathing fine particles; use proper PPE.

• Storage: Keep in inert atmosphere or sealed containers to prevent oxidation.

Additional Information:

• Item Code: VIPLTa
• Delivery Time: 7-10 Working days

Product Details:

Vanadium Metal Powder is a finely divided form of vanadium (V), a transition metal with atomic number 23. It exhibits high strength, corrosion resistance, and stability at elevated temperatures, making it valuable in alloys, catalysts, energy storage, and specialty applications.

Product Details:

Cerium Metal Powder is a fine powdered form of cerium (Ce), a rare earth element from the lanthanide series. It is silvery-gray, ductile, and one of the most abundant rare earth metals. Due to its strong reducing properties and ability to easily oxidize, cerium metal powder is widely used in metallurgy, catalysis, and advanced material applications.

Product Details:

Zirconium Metal Powder is a finely divided form of zirconium (Zr), a transition metal known for its high strength, corrosion resistance, and heat resistance. The powder form is widely used in pyrotechnics, metallurgy, nuclear applications, and advanced materials manufacturing.

Product Details:

SS316L refers to a specific type of stainless steel alloy that belongs to the 316 family of stainless steels. It is widely used in various industries due to its excellent corrosion resistance, high-temperature strength, and versatile mechanical properties. The "L" in SS316L stands for low carbon, indicating that the alloy has a lower carbon content compared to standard 316 stainless steel, which enhances its weldability and reduces the risk of sensitization to corrosion.
Here are some key features and properties of SS316L:
1. Composition: SS316L is primarily composed of iron (Fe) and contains significant amounts of chromium (Cr), nickel (Ni), molybdenum (Mo), and small amounts of other elements. The composition typically includes approximately 16-18% chromium, 10-14% nickel, 2-3% molybdenum, and less than 0.03% carbon.
2. Corrosion Resistance: SS316L offers excellent corrosion resistance in a wide range of environments, including both acidic and alkaline conditions. It is particularly resistant to corrosion by chlorides, making it suitable for applications in marine environments or exposure to chloride-containing solutions.
3. High Temperature Resistance: SS316L exhibits good strength and oxidation resistance at elevated temperatures. It can withstand high-temperature environments without significant loss of mechanical properties or increased susceptibility to corrosion.
4. Weldability: The low carbon content in SS316L enhances its weldability compared to standard 316 stainless steel. It reduces the risk of sensitization, a phenomenon where carbide precipitation at grain boundaries can lead to intergranular corrosion. SS316L is commonly used in welding applications and can be readily welded using common welding techniques.
5. Mechanical Properties: SS316L offers good mechanical properties, including high tensile strength, ductility, and impact resistance. It can withstand heavy loads, making it suitable for structural and load-bearing applications.
6. Biocompatibility: SS316L is considered biocompatible, making it suitable for use in medical and dental applications, such as surgical implants, orthopedic implants, and medical instruments. Its resistance to corrosion in bodily fluids and compatibility with human tissues contribute to its widespread use in the healthcare industry.
7. Versatility: SS316L is a versatile alloy with applications in various industries, including chemical processing, oil and gas, food processing, pharmaceuticals, pulp and paper, and architecture. It is used in equipment and components such as tanks, pipes, valves, heat exchangers, fittings, and structural elements.
8. Surface Finish: SS316L can be polished or finished to provide a smooth and aesthetically appealing surface. This makes it suitable for decorative applications or in environments where cleanliness and hygiene are crucial, such as the food and beverage industry.
SS316L's combination of corrosion resistance, high-temperature strength, weldability, and mechanical properties make it a popular choice for a wide range of applications in diverse industries. Its reliability and durability have established it as a widely used stainless steel alloy.

Product Details:

Bismuth metal powder is the finely divided form of bismuth (Bi, atomic number 83), a brittle post-transition metal. It is typically silvery-white with a slight pinkish hue and is known for its low toxicity compared to other heavy metals, making it a safer alternative in many applications.

Product Details:

Antimony microparticles are fine powders of elemental antimony (Sb) with particle sizes typically in the 1–100 µm range. They differ from nanoparticles in scale and are widely used in metallurgy, electronics, flame retardants, pigments, and chemical catalysis.

Product Details:

Hafnium powder is the fine metallic form of Hafnium (atomic number 72, CAS No. 7440-58-6), a transition metal closely related to zirconium. It is silvery-gray in appearance, highly ductile, and resistant to corrosion. Due to its strong ability to absorb neutrons, it is widely used in nuclear applications, aerospace, and advanced materials.

Product Details:

Neodymium Powder is the finely divided metallic form of neodymium (Nd), a rare-earth element. It appears as a grayish-silvery powder and is highly reactive, especially in air, where it readily oxidizes. This powder is primarily used in the production of powerful permanent magnets (NdFeB magnets), specialty alloys, electronic components, and laser materials.

Product Details:

Zinc microparticles are zinc particles with sizes typically ranging from 1 µm to 1000 µm. They are larger than zinc nanoparticles but still much smaller than bulk zinc materials. Due to their high surface area-to-volume ratio (compared to bulk zinc) and reactivity, they are widely used in coatings, catalysis, batteries, and biomedical applications.