Tag: powder

The Applications of Stannic Sulfide Powder

What is it? Stannic sulfide powder ? Stannic sulfuride is a yellow amorphous or crystal of golden yellow. To obtain colored gold, tin scraps or tin alloy are heated together with sulfur and ammonium chlorineide. A yellow amorphous, precipitate (wet). They are not soluble in water. Aqua regia, alkali sulfide (to create thiostannate), strong acid (to generate both thiostannate & hexahydroxystannate), as well as other solutions are suitable. The wet process product can be dissolved in warm, medium-strength hydrogen chloric acid. However, the dry product cannot be dissolved in hydrochloric.
The key features of Stannic Sulfide Powder
Tin disulfide (n-type semiconductor material) has a hexagonal CdI2 crystal and a broad band gap of around 2.35 eV. The wider band gap allows it to have excellent optical and electrical properties. It is suitable for holographic recording, electrical conversion System materials, solar cells materials, and anode materials in lithium electronic batteries. Because it has a similar band gap to silicon, it’s safe and sustainable. Tin disulfide also has a high absorb coefficient making it suitable for solar cells. It has been a popular research topic for both foreign and domestic experts in recent years. Pigments etc.

Stannic Sulfide Properties
Other Titles	Tin(IV) sulfide, tin disulfide, tin dissulphide, tin sulfide, Tin(4+), dissulfide and SnS2 Powder
No.	1315-01-1
Combination Formula	SnS2
Molecular Weight	182.84
Appearance	Powder of gold-yellow
Melting Point	N/A
Boiling Point	600
Density	4.5 g/cm3
Solubility of H2O	Insoluble
Exact	183.846337

Stannic Sulfide SnS2 powder CAS 1314-95-0

Applications for Stannic sulfide powder
Tin disulfide (SnS2), a two-dimensional van der Waals semiconductor, is non-toxic, easy to make, and abundant in material. Tin sulfide (SnS2) is a semiconductor that is currently in high demand on the market. It is mostly used for research and development and experiments.
Stannic supplier sulfide powder
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What is it? Stannic sulfide powder ? Stannic sulfuride is a yellow amorphous or crystal of golden yellow. To obtain colored gold, tin scraps or […]

What is Ti6Al4V Powder?

What is it? Ti6Al4V Puffer ? Powdered Titan alloy is produced by atomizing, rotating or vacuum decompression of qualified titanium alloy liquid metal, and hot extrusion to rod, hot isostatic pressure into titanium alloy turbine disc, aircraft keel joint material, and seawater desalination system material.
The key features of Ti6Al4V Powder
Titanium and its alloys have high specific strengths, good thermal resistance at medium temperatures, corrosion resistance, and abundant resources. They are therefore widely used in aviation and many other areas such as chemical industry and metallurgy. It is now the most important structural metal material for aircraft engines, along with its alloys.

Ti6Al4V TC4 Powder Properties
Other Titles	Ti6Al4V powder, TC4 powder
No.	N/A
Combination Formula	TA0,TA1,TC4,TC4 ELI,TC11,TC17,TC18,TC21,TA7,TA12,TA15,TA17,TA19, Ti40,Ti60,TiAl(Ti36Al,Ti48Al2Cr2Nb),TiNi,TiNb,ZrTi
Molecular Weight	N/A
Appearance	Grey powder
Melting Point	N/A
Solubility of in water	N/A
Density	N/A
Purity	99%
Particle size	0-20mm, 15-45mm, 15-53mm, 53-105mm, 53-150mm, 105-250mm
Boling Point	N/A
Specific heat	N/A
Thermal Conductivity	N/A
Thermal Expansion	N/A
Young’s Modulus	N/A
Exact Mass	N/A
Monoisotopic	N/A

3D Printer Ti6Al4V Powder HTML4_

The Uses of Ti6Al4V Pulver
(1) Corrosion-resistant general components are made from treated pure titanium sponge by cold pressing vacuum sintering. Use of titanium powder-sintered parts in aviation is a mature practice. Pure sponge titanium powder, or alloy powder, can be directly rolled and made into porous titanium plate or dense titanium plate. For use as a filter, the former can be coiled into a porous tube and welded.
(2) TiAI alloy target can be made by using titanium powder and aluminium powder as raw materials. For electronics, titanium getter material that can reach high vacuum is required. HDH titanium powders are typically used with larger surface areas to make such materials.
(3) Titanium alloy powder forms by cold isostatic press and vacuum sintering. Then, various profiles can be obtained by forging and rolling. This titanium alloy profile has many applications.
(4) HIP direct formation of pre-alloyed powder for the production of high-strength, titanium alloy products.
(5) Pre-alloyed powder can be directly formed into parts for aero-engine parts at medium temperatures.
(6) Engine connecting rods are made from hot isostatic pressing and vacuum sintering. They are used in many automobile engines. In addition, powder metallurgy intake-exhaust valves are used widely in the automotive industry.
High-quality Ti6Al4V Poultry Source
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What is it? Ti6Al4V Puffer ? Powdered Titan alloy is produced by atomizing, rotating or vacuum decompression of qualified titanium alloy liquid metal, and hot […]

What is Titanium Carbide TiC Powder?

Introduction to Titanium Carbide TiC Pulp The chemical formula titanium carbide TiC. It is a metallic-luster, steel-gray crystal. It is both electrically and thermally conductive. The electrical conductivity of the crystal decreases with temperature. It is a hard and high melting point compound. This makes it second to diamond in hardness. The lattice constant of a=4.173×10-8cm. Melting point 3150; boiling point 4820; relative density 4.9. TiN, TiO both have the same lattice. They also share the same parameters. This allows for continuous solid solutions to be formed between them. C removal slowly occurs when the temperature is raised to over 1500 in H2 gaz. A mixture of Ti(C), N) carbon nitride and N2 gas above 11200 forms a variable composition. TiC has a slow oxidation rate at 800. However, powder TiC can be burnt in O2 at 600 and produced TiO2 (and CO2) by burning it in O2. Reaction with O2 gases produces TiO2 and carbon dioxide at 1200. It doesn’t interact with water but can react to water vapor to create TiO2, H2 and CO at temperatures above 700. It does not react to CO, but it reacts with CO2 at 1200, producing TiO2 or CO.

Titanium Carbide TiC Powder Properties
Other names	titanium(IV) carbide, TiC powder
CAS No.	12070-08-5
Formula compound	TiC
Molecular Weight	40.1
Appearance	black powder
Melting Point	3160degC
Boiling Point	4820degC
Density	4.93g/cm3
Solubility of H2O	Insoluble
Exact Mass	59.947

Titanium Carbide Nanoparticles Nano TiC Powder CAS 12070-08-5

Preparation methods for Titanium Carbide TiC powder
1. Carbothermic reduction
At 1700-2100 TiO2 (S)+3C(s), the chemical reaction formula for TiO2(S),+3C(s)=TiC+2COg was achieved.
2. Carbonization by direct method
TiC was created by the reaction between Ti powder and carbon dust.
Ti(s)+C(s)=TiC
Submicron Ti powder preparation is difficult. This limits the use of the method. It takes approximately 5-20 hours for the above reaction to complete. Because the reactants agglomerate, it is very difficult to control the process. Further grinding is required to produce fine TiC powder. Purifying the fine powder from ball milling with a chemical method is essential to get a better product.
3. Chemical vapor deposition
The reaction between TiCl4, TiH2 and C is the basis of the synthesis method.
TiCl4(g)+2H2(g)+C(s)=TiC(g)+4HCl(l)
Reactants are formed when hot tungsten and carbon monofilaments react. Monofilaments can be used to grow TiC crystals. This method is not able to produce high-quality TiC powders.
4. Sol-gel method
The invention concerns a method to prepare small-sized products by thoroughly mixing and dispersing material with solution. It offers the advantages of high chemical uniformity, small particle size, and narrow distribution. However, the synthesis process is complicated, drying shrinkage can be large, and the synthesis process is complex.
5. Microwave method
Use nano TiO2 or carbon black as raw materials. The principle of carbon thermal reaction is used to heat the material using microwave energy. Actually, the high-frequency electrical field’s dielectric loss is used to convert microwave heat into energy. This allows nano TiO2 (carbon) to synthesize TiC.
TiO2+3C=TiC+2CO(g)

Titanium Carbide TiC Powder: Applications
1. Use in mold making, wear-resistant coating, cutting tools, and other applications.
2. Raw materials used in the production of ceramics, as well as hard metallurgical components by powder metallurgy such as drawing film and hard alloy die. Polyphase ceramics can also be used to make hard cutting tools, military arm materials, aerospace components like gas tanks, engines and nozzles. They can also be used as linings for turbine rotors, blades and structural parts in nuclear reactors.
3. It is a good coating material for diamond coating, tritium anticoating in the Fusion reactor, electric contact coat, excavator cut coating, and foam ceramics.

Titanium Carbide TiC Pulp is Main Supplier
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High-quality products are what you want TiC Powder – titanium carbide Please feel free and contact us to send an inquiry. (brad@ihpa.net)

Introduction to Titanium Carbide TiC Pulp The chemical formula titanium carbide TiC. It is a metallic-luster, steel-gray crystal. It is both electrically and thermally conductive. […]

The Applications of Bismuth Oxide

How do you define it? Bismuth Oxide Powder ?
The most popular bismuth compound is the Bi2O3 Bismuth Oxide Powder. It is a functional material with advanced Functional properties that has exceptional dielectric and oxygen fluidity.
There are two types of pure bismuthtrioxide: a and b. Yellow monoclinic crystal of the a type has an 8.9 relative density and a melting points of 825degC. Solventible in acids, but insoluble when alkali is added. Bright yellow to orange cubic crystal, relative density 8.55, melting temperature 860 degrees C. Soluble in acids but insoluble when water. Low-temperature reduction of metallic bismuth is possible by hydrocarbons and hydrogen.
Here are some of the key features Bismuth Oxide powder
Bismuth dioxide is an important additive for electronic ceramic material. Its purity must be at least 99.15%. Main application objects include zinc oxide varistor, ceramic capacitor and ferrite magnetic materials.
Water-soluble or atmospheric carbon dioxide can react easily with bi2O3 to make bismuthsubcarbonate. Bismuth dioxide is an alkaline oxide which accounts for its high reactivity to carbon dioxide. However, if Si(IV) an acidic Cation is introduced to bismuth oxide structures, it does not cause a reaction with carbon dioxide. The concentration of sodium hydroxide, bromine, or a mixture thereof with potassium hydroxide is what forms bismuth (III).

Bismuth Oxide Properties
Other Titles	Bismuth trioxide (Bi2O3) powder
	1304-76-3
Compound Formula	Bi2O3
Molecular Weight	465.96
Appearance	Powder of light yellow
Melting Point	817 degC
Boiling Point	1890 degC
Density	8.9 g/cm3
Solubility of H2O	N/A
Exact Mass	465.945541

Bismuth Oxide Bi2O3 powder CAS 1304-76-3

Bismuth Oxide powder uses
Useful for making bismuth sodium salt. Also used in electronic ceramic materials, as photoelectric material, electrodelyte material or high-temperature superconducting material, and catalyst. A purity level of 99.15% is required for bismuth dioxide, which is an important ingredient in electronic ceramics powder materials. Zinc oxide varistors, ceramic capacitors and ferrite magnet materials are the main uses. Glaze rubber compounding agent is also used, as medicine compounding agent, red glass compounding agents, and so forth.
It is used extensively in electronics, chemicals, glass, plastic, and ceramic glaze industries.
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How do you define it? Bismuth Oxide Powder ? The most popular bismuth compound is the Bi2O3 Bismuth Oxide Powder. It is a functional material […]

Important Applications of Amorphous Boron Powder in Different Fields

What is amorphousboron powder?

Amorphous boron dust Is a dark brown or black powder. Crystal boron is either black or dark brown powder. It is hardier than diamond and has a brittle texture. Boron is called boron. Its Arabic name means “flux”, which is what it was originally called.

Properties of amorphous Boron powder

The elementalboron is a black or dark brownish powder. When internal boron is oxidized in oxygen, it forms boron Trioxide Film. It can react with fluorine at normal room temperatures and is not corroded if hydrofluoric acid or hydrofluoric acid are dissolved in aqueous solution.
Amorphous Boron powder is not soluble in water. The powdered form of boron can also be dissolvable in boiling sulfuric acid or nitric acids.

Application of amorphous Boron powder

Amorphous boron is used widely in electronics, medicine, metallurgy and other areas.

Amorphous boron is used as a fine chemical product in metallurgy. It can also be used in aerospace, synthesis and other areas. It is often used as a deoxidizer and initiator of an automobile airbag or pilot of rocket launch fuel.

Crystalline boron, which is extremely hard is often used in place of diamond when making cutting tools or drill bit. To prevent metal oxidation at high temperatures, a small amount is added to the metal smelting process as a deoxidizer. On the other side, the mechanical properties can be improved.

Amorphous Boron powder will soon be a major energy material. This is why composite solid propellants have been closely studied. Boron is a solid fuel with a calorific worth that exceeds that of carbon. It also has twice the aluminum and magnesium calorific values. It has a volumetric calorific factor of almost three times that for hydrocarbon fuel and a density that is just slightly lower than that for aluminum. It has the highest volumetric culorific value. Boron is the best nonmetallic fuel for energy.

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What is amorphousboron powder? Amorphous boron dust Is a dark brown or black powder. Crystal boron is either black or dark brown powder. It is […]

What is nanodiamond powder?

Introduction to Nanodiamond Pulver Diamond is a carbon-containing mineral and is an alotrope of carbon. Diamond is the hardest substance that can be found in nature. You can find diamonds in many colors, including colorless, translucent, and black. The best is colorless. They come in transparent, translucent, and opaque options.
Nanodiamond It has the dual characteristics both of diamond and nanomaterial. It is characterized by the ultra-high hardness and good chemical stability as well as wear resistance. It has electrical, magnetic and thermal properties that are more than ordinary particles. This makes it a popular choice for mechanical processing, optics and medicine.

Nanodiamond Powder’s Physicochemical Characteristics
Nanodiamond’s excellent mechanical and optical properties, large surface area, and adjustable structure make it a great choice. They are also non-toxic making them suitable for biomedical applications.
Nanodiamond also features unique round particles that have the hardness, wear resistance, and performance of super-lubrication. This makes it useful in plating, polishing and lubrication.

Nanodiamond Powder Properties
Other Names	Nanodiamond powder, diamond nanopowder and nanodiamonds Synthetic diamond nanoparticles, Detonation Nanodiamonds
CAS No.	7782-40-3
Formula compound	C
Molecular Weight	12.01
Appearance	From gray to black powder
Melting Point	3727degC
Boiling Point	N/A
Density	3.5g/cm3
Solubility of H2O	Insoluble
Exact Mass	N/A

Nano Diamond Powder CAS 7782-40-3

Nanodiamond Powder – Applications
Nanodiamond offers unique physical and chemical characteristics that are superior to traditional carbon materials. It has better surface modification performance, high field emission, and biocompatibility. It has been used extensively in catalysis, biomedicine, and electrochemical detection in recent years.
It is used, in particular:
1. To make diamond film
2. Composite plating research
3. For lubricating oil and solid lubricant.
4. to sintered body
5. Infrared and microwave absorption materials
6. For magnetic recording system
7. Stealth materials
8. Rubber and polymer are added to increase its performance.
9. Added to the explosive to increase its explosive power
10.
11. Nanodiamond can be used in biological applications. Nanodiamond’s biocompatibility is excellent, it is easy for cells to get into it, and its surface can easily be modified. Nanodiamonds may be used to create tissue scaffolds and as diagnostic probes.
12. for electrochemical determination: Nanodiamond is a great choice because of its excellent electrochemical characteristics, including a large potential window, low background, high acid and alkali resistance, high stability, and low corrosion resistance. Numerous researches have been conducted on its electrochemical characteristics in recent years. Nanodiamonds are used to detect the concentration of substances. It can be used in various areas such as environmental monitoring and biological diagnosis.

Nanodiamond Powder Main Supplier
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and nanomaterials. They have over 12 years experience in producing super high-quality chemicals.
High-quality products are what you want Nanodiamond powder Please feel free and contact us to send an inquiry. (brad@ihpa.net)

Introduction to Nanodiamond Pulver Diamond is a carbon-containing mineral and is an alotrope of carbon. Diamond is the hardest substance that can be found in […]

The applications of Spherical Aluminum Oxide Powder

Overview Spherical Al Oxide Powder
Alumina is an inorganic substance with the chemical formula Al2O3.It is a high-hardness compound and is also called bauxite in mining,ceramics and materials science.It is a white solid insoluble in water,odorless,tasteless,and very hard in nature.It is easy to absorb moisture but does not deliquescence (non-hygroscopic after burning).Alumina is a typical amphoteric oxide (corundum is alpha-shaped and belongs to the most densely packed hexagonal compound.It is an inert compound,slightly soluble in acid and alkali and corrosion resistant. It is easily soluble in alkaline solutions and inorganic acid, but nearly insoluble in water.

Spherical Al2O3 Powder CAS 1344-281

What are the applications of Spherical Aluminum oxide Powder
1.Paints: Wear-resistant paint, porcelain paint and plasma spraying.
2.Ceramics:transparent ceramics, bio-ceramics and alumina ceramics.
3.Petrochemical products: High-efficiency catalysts, catalyst carrier and automotive exhaust gases purification materials.
4.Polishing materials: sub-micron/nano-level abrasive materials,single crystal silicon wafer polishing, precision polishing materials.
5.Illumination: Long afterglow phosphor raw materials and rare earth three-color phosphor raw materialshigh-pressure sodium lamp tubes, LED lights, etc.
6.Electronic Products: integrated circuit substrates and single crystal materials.
7.Cosmetics – cosmetic fillers
8.Inorganic membrane material.
Alumina Al2O3 can perform a variety of dry and wet treatment processes. It can be used to grind the surface of any piece of workpiece. It is the most affordable abrasive. This type of synthetic abrasive, which is water chestnut and sharp, has a hardness that rivals diamond. It can also be used when iron pollution restrictions are high. This abrasive is used to do the most rough work. However, it can also make a pebble to be used to process small pieces of work to obtain extremely low levels of roughness. Because of its high density and sharpness along with its rhombohedral structure it is one the fastest-cutting abrasives.
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Overview Spherical Al Oxide Powder Alumina is an inorganic substance with the chemical formula Al2O3.It is a high-hardness compound and is also called bauxite in […]

What is Nano Diamond Powder?

This article will focus on the uses of nano diamond powder Its properties will be discussed. Learn about how nano diamond powder is made and what it costs. The basics of nano diamond powder are essential if you’re interested in buying it. For both novice and experienced engineers, this article is useful. You will be able to make an informed decision.

Uses of nano-diamond powder

This report covers the Global Nano-diamond Powder Market. It provides information regarding market size, trends, competition, as well as the current status of the market. This report provides market segmentation by types, regions, and applications. This report also includes information about the market’s demand and supply ratios.
Many sectors have Nanodiamonds, both medically and not. You can use them in medicine, drug delivery and bioimaging. Because of their unique properties, they are useful in noninvasive imaging. Even bio-labeling agents can be made with Nanodiamonds

Nanodiamonds have a high specific area and can be used to catalyze chemical reactions. You can use them as chemical sensors transducers. You can combine Nanodiamonds and other materials to make nano-composite, structural materials. These nanostructured materials may be used to make semiconductor devices, microcomputer parts, and integrated circuit components.

The three main characteristics of nano-diamonds powders include their compact size, high specific area, and high absorption. These properties make them attractive materials for numerous applications such as electronics, medicine manufacturing and machinery manufacturing. You can also expect smooth, flawless surfaces that are free from defects. These materials are excellent for polishing or electroplating.

Diamond particles of just 5 nanometers in size make up Nanodiamond Powders. These particles exhibit exceptional mechanical and optical characteristics. This makes them very promising in biomedical applications. These particles are also safe. They are an attractive option in the field of biomedical research for drug delivery.

For the prevention and treatment of infections, you can use Nanodiamonds as antibacterial agents. They are an excellent tool for biomedical and scientific research because of their inherent properties. You can also use them in diagnostic and drug delivery. Although there are many challenges, this field is moving towards promising applications.

The innovative delivery of advanced cancer therapies has also been made possible by Nanodiamonds. The combination of daunorubicin and DNPs were highly effective in killing the multidrug-resistant human leukemia cell K562. Nanodiamonds also delivered Doxorubicin which causes apoptosis and was used to treat brain metastases and malignant brain gliomas.

The properties of nano-diamond powder

Nanodiamond is an example of carbon, with a mean particle diameter of ten nanometers. It is biocompatible and easily penetrates cells. This makes it a great candidate for tissue scaffolds, diagnostic probes, and antiviral agents. This electrode also exhibits excellent electrochemical qualities, such as a narrow potential window and low background current. Nanodiamond electrodes are a great choice for medical diagnosis.

The most common and widely-used nanopowder, diamond nanopowder, is among the most versatile. This nanopowder is widely used for electronics, jewelry and coatings that resist erosion. Nanodiamond exhibits excellent hardness, wear resistance, and lubrication. Nanodiamond has no toxic properties and is safe to be used in polishing, oil removal, and many other technical areas. The chemical and physical characteristics of Nanodiamond are different from traditional carbon material.

Because of its widespread use in polishing formulations, the market for nanodiamond dust is likely to grow in coming years. Nanodiamond is safe and biocompatible. It is possible to make it commercially by detonating trinitrotoluene. A solid fuel, such as TNT, is burnt in a sealed container to create nanodiamond crystals.

Nanodiamonds have a small size that can penetrate viruses and bacteria. Nanodiamonds have this property, which makes them very useful in the prevention of infection. Nanodiamond particles are compatible with existing drug delivery systems.

Nanodiamonds can be very tiny particles, ranging in size between 0.5 and 50 nm. The average particle size of these particles is about 5 nm. You can form them into larger agglomerates. The nanodiamonds then get electroplated onto a substrate for increased hardness, wear resistance and durability.

Nanodiamonds have different properties depending on their density and charge. They are susceptible to oxidation as well as surface density. Surface densities will differ depending on how many crystal facets are exposed, as well the presence of defects and edges.

The preparation of nano-diamond powder

Nano diamonds are small, crystalline particles. They are able to develop their euhedral patterns even when heated. The size of these crystals can increase from just a few nanometers up to half a micrometer. SAED analysis revealed only single diamond crystals in the samples. However, high resolution imaging showed that the samples did not contain graphite/amorphous-carbon phases. A new technique has been developed to prepare nanodiamond particles.

Nanodiamond is made by the high-pressure and high temperature decompositions of graphite C3N4 This produces diamond that is extremely pure. These Nanodiamond crystals are almost single-crystalline monodispersed grains. The unique method does not need size classification, detonation, or post-surface treatment.

Nanodiamonds are antibacterial, meaning they stop or end bacterial growth. These nanodiamonds can be used to deliver drugs. It is unclear how drugs are absorbed onto nanodiamond surface, but it is evident that they have special properties that can be used as a drug delivery vehicle.

For the creation of high-purity, nanodiamond products, it is crucial to use a new way of manufacturing nanodiamond particles. They can be used by many industries. You can use them in the manufacture of reinforced resins. You can use them to increase the mechanical strength or wear resistance of many materials.

It is possible to prepare nano-diamond powders using inexpensive, simple equipment. They are useful in biosensors and biochip industries. One example is a single-dispersed nanodiamond solution for cell labeling.

Nanodiamond preparation is a complex process that requires care to ensure purity and quality of dispersion. Nanodiamonds have many properties that can be improved by the preparation process. You can alter the surface of a nanodiamond with functional groups to enhance its properties. These functional groups can be used to add fluorescent or biodegradable microdiamonds. They can also be used in bioimaging as well drug delivery and biosensing.

Nano diamond powder preparation has many advantages over conventional methods for synthesising NDs. First, the nanoparticles that result from this procedure are not contaminated with metallic impurities. This method does not need to be purified with harsh chemicals.

Price of nano-diamond powder

Price of nano diamond powder is affected by several factors. This includes the cost of production, shipping costs, as well as the global situation. Price will also be affected by market demand and supply. Tanki New Materials Co. Ltd. is here to help you make wise purchasing decisions. Offers customized services tailored to their needs.

The most popular and versatile nanopowder, diamond nanopowder, is widely used. You can use it for everything from jewelry manufacturing and electronics manufacturing. This can be used to create erosion-resistant coatings. It is composed of single-crystal diamants in sizes between five and 500 nanometers.

To make lithium-ion batteries’ negative electrodes, nano-diamond can be combined with graphene and carbon black. For the production of an electrode, nanodiamond powder can be combined with graphene or carbon black. After drying in the vacuum oven at 120 DEG C, the powder can be cut into desired shapes.

Nanodiamond films are very similar to Nanodiamond Powder. These powders can also be used to make biofuels, and for industrial purposes. The polar groups of these compounds are helpful in controlling adhesion. This is crucial in biomedical fields. Nanodiamonds offer a promising alternative resource.

These nano-diamonds can be used for therapeutic drugs, nucleic acids, imaging agents and other purposes. These nano-diamonds can be used to perform bio-sensing. You can use them as drugs delivery vehicles. This makes them ideal materials for a variety of applications from electronics to medical devices.

Nano Diamond Powder Price

Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity and market sentiment are also important.
You can email us to request a quote for the latest price of nano diamond powder. (brad@ihpa.net)

Nano Diamond Powder Supplier

Technology Co. Ltd. (), is a respected supplier and manufacturer of nano diamond powder with more than 12-years experience. All of our products can be shipped worldwide.

You can contact me if you’re looking for nano-diamond powder of high quality. Get in touch You can also send us an inquiry. (brad@ihpa.net)

This article will focus on the uses of nano diamond powder Its properties will be discussed. Learn about how nano diamond powder is made and […]

Stainless Steel Powder for Additive Manufacturing (AM) Applications

Stainless steel is a group of iron-base alloys that contain sufficient chromium to form a stable passive film on the surface (passivate). This makes them corrosion resistant and a good choice for applications in aqueous environments.

SS powders are available in different shapes and particle sizes for additive manufacturing (AM) applications. The range includes basic austenitic, martensitic and ferritic grades with a chromium content of 12 to 30%.

Particle size and shape of 316L powder are an important factor in the suitability of the powder for AM. These properties are also critical for the fabrication of parts with a smooth, flat and well-defined surface finish.

To assess the effect of powder size and shape on rheology, the as-received and spheroidized powders were measured for flowability using a Freeman Technology-FT4 powder rheometer. Additionally, stability tests were carried out in a 25 mm x 25 mm vessel to measure bulk and flow properties.

The relationship between the particle size and shape and the powder rheology was studied with a number of methods, including SEM-EDX, inductively coupled plasma optical emission spectroscopy and electron backscattered diffraction. The chemistry of the powders was also determined using ICP spectroscopy, and the microstructure of the powder was assessed by X-ray diffraction.

The tensile properties of parts produced from the experimental powders were compared to those from commercial and arc-sprayed powders. The parts exhibited similar tensile strength and elongation values, but the arc-sprayed powder specimens showed significant work hardening to a UTS of 974 MPa with an elongation to fracture of 18%.

Stainless steel is a group of iron-base alloys that contain sufficient chromium to form a stable passive film on the surface (passivate). This makes them […]

AlN Ceramic Powder Injection Molding Components

About AlN Ceramic Powder Injection Molding Components:
Aluminum nitride, covalent bond compound, the chemical formula is AIN, is an atomic crystal, belongs to diamond-like nitride, hexagonal system, wurtzite type crystal structure, non-toxic, white or off-white. AlN can stabilize up to 2200℃. The strength at room temperature is high, and the strength decreases slowly with the increase of temperature. Good thermal conductivity, small coefficient of thermal expansion, is a good heat-resistant impact material. It is an ideal crucible material for melting and casting pure iron, aluminum or aluminum alloy because of its strong ability to resist molten metal erosion. Aluminum nitride is also an electrical insulator, with good dielectric properties, and is also promising as an electrical component. The aluminum nitride coating on the surface of gallium arsenide protects it from ion implantation during annealing. Tungstenmolybdenummetals is a trusted global AlN Ceramic Powder Injection Molding Components supplier. Feel free to send an inquiry about the latest price of AlN Ceramic at any time.

Product Performance of Aluminum Nitride AlN Ceramic Microsphere:
Our AlN ceramic powder injection molding components has the properties: excellent performance, low in cost, high production quantities and shape complexity.

Features of AlN Ceramic Powder Injection Molding Components:
High thermal conductivity
High strength
High accuracy
High insulation strength
Complex shape custom available
Plasma resistance

Specification of AlN Ceramic Powder Injection Molding Components:

Properties	Tr-C210	Tr-C170
Density (g/cm3)	3.33	3.32
Thermal conductivity (W/m·K)	210	170
Bending Strength (MPa)	300	410
Insulation (KV/mm)	27	31
Dielectric	8.9	8.8
CTE (10-6)	4.9	4.6

How is AlN Ceramic Powder Injection Molding Components Produced?
Preparation of aluminum nitride ceramic powders by direct nitriding of Al powder:
The direct nitriding method of Al powder is the earliest method to prepare AlN powder. In this method, aluminum powder is heated in nitrogen. At high temperatures (800~1200℃), aluminum powder and nitrogen directly react to produce aluminum nitride powder, the reaction formula is 2Al + N2 =2AlN.
This method has the advantages of abundant raw materials, low cost, simple process, and no side reaction. However, the disadvantages of this method are also obvious. At the initial stage of reaction, the surface of aluminum powder particles will gradually form a nitride film, which makes it difficult for nitrogen to penetrate further and hinders nitrogen reaction, resulting in a low yield. And because the reaction between aluminum and nitrogen is a strongly exothermic reaction, the speed is very fast, resulting in the AlN powder self-sintering, forming agglomeration, making the powder particles coarsening.
The preparation methods of aluminum nitride powder include Al2O3 carbothermal reduction, self-spreading high-temperature synthesis, high-energy ball milling, chemical vapor deposition, sol-gel method, plasma chemical synthesis, in-situ autoreactive synthesis, arc melting, microwave synthesis, sol-thermal synthesis, etc.

Applications of AlN Ceramic Powder Injection Molding Components:
1. Aluminum nitride powder with high purity, small particle size and high activity. It is the main raw material for manufacturing high thermal conductivity aluminum nitride ceramic substrate.
2. Aluminum nitride ceramic substrate has high thermal conductivity, low expansion coefficient, high strength, high-temperature resistance, chemical corrosion resistance, high resistivity, small dielectric loss. It is an ideal substrate and packaging material for large-scale integrated circuits.
3. The hardness of aluminum nitride is higher than that of traditional alumina. It is a new type of wear-resistant ceramic material, but because of its high cost, it can only be used for parts with severe wear.
4. By using the heat resistance, melt erosion resistance and thermal shock resistance of AIN ceramics, GaAs crystal crucible, Al evaporation plate, magnetic fluid power generation device and high-temperature turbine corrosion resistance parts can be made, and its optical properties can be used as an infrared window. The aluminum nitride film can be made into high-frequency piezoelectric elements and very large-scale integrated circuit substrates.
5. Aluminum nitride heat resistance, corrosion of molten metal, stable to acid, but in alkaline solution is easy to be eroded. Exposure to wet air on the new surface of AIN reacts to form an extremely thin oxide film. Using this characteristic, it can be used as a crucible and casting mold material for aluminum, copper, silver, lead and other metals melting.AIN ceramics have good metallization properties and can replace toxic beryllium oxide ceramics in the electronic industry.

Storage Condition of AlN Ceramic Powder Injection Molding Components:
The damp reunion will affect AlN ceramic powder injection molding components dispersion performance and using effects, therefore, it should be sealed in vacuum packing and stored in cool and dry room, the AlN ceramic powder injection molding components can not be exposure to air. In addition, it should be avoided under stress.

Packing & Shipping of AlN Ceramic Powder Injection Molding Components:
We have many different kinds of packing which depend on the AlN ceramic powder injection molding components quantity.
AlN ceramic powder injection molding components packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
AlN ceramic powder injection molding components shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

AlN Ceramic Powder Injection Molding Components Properties
Other Names	Aluminium nitride
CAS No.	24304-00-5
Compound Formula	AlN
Molecular Weight	40.9882
Appearance	White to pale yellow powder
Melting Point	2200 °C
Boiling Point	2517 °C (dec.)
Density	2.9 to 3.3 g/cm3
Solubility in H2O	N/A
Electrical Resistivity	10 to 12 10x Ω-m
Poisson’s Ratio	0.21 to 0.31
Specific Heat	780 J/kg-K
Thermal Conductivity	80 to 200 W/m-K
Thermal Expansion	4.2 to 5.4 µm/m-K
Young’s Modulus	330 GPa
Exact Mass	40.9846
Monoisotopic Mass	40.9846

AlN Ceramic Powder Injection Molding Components Health & Safety Information

Remarks	Danger
Hazard Statements	H314-H335
Hazard Codes	Xi
Risk Codes	36/37/38
Safety Statements	26-37/39
RTECS Number	N/A
Transport Information	N/A
WGK Germany	3

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About AlN Ceramic Powder Injection Molding Components:Aluminum nitride, covalent bond compound, the chemical formula is AIN, is an atomic crystal, belongs to diamond-like nitride, hexagonal system, […]

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