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Silicon carbide ceramic

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Silicon carbide is made from silicon and carbon. It's a very tough crystalline compound. SiC is the chemical name for Silicon Carbide. Since late 19th-century, Silicon Carbide has been a key material in the production of sandpapers and other cutting tools. Silicon carbide has been utilized in recent years as a refractory coating and heating element of industrial furnaces. It is also used to protect parts of rocket engines and pumps, and for semiconductor substrates of light emitting diodes.

Silicon carbide semiconductor
The third generation of semiconductor materials made from silicon carbide are after the second generation elemental semiconductors (Si and Ge) as well as the second generation compound semiconductors. The characteristics of silicon carbide as a semiconductor material have a large band gap. They are strong in radiation resistance and chemical stability. Due to its high temperature resistance and resistance to pressure as well high frequency, it has been used extensively in the power electronics field.

SiC can be found in many polycrystalline structures called polymorphisms. At this time, the preferred choice for actual power device manufacturing is 4H-SiC. There are single crystal 4H–SiC wafers available with diameters from 3 to 6 inches.

Silicon carbide vs. Si
SiC offers a ten-fold increase in dielectric breakdown strength, band gap, and thermal conductivity compared to Si. SiC can be used at higher temperatures and has a higher resistance to voltage.

Preparation and use of single SiC SiC-rich crystal
Silicon carbide substrates can be prepared using PVT, solution or HTCVD. The world's most popular method for preparing silicon carbide single crystals is the PVT technique. SiC single crystal growth involves three steps: Acheson, Lely and modified Lely.

SiC crystals can also be grown using sublimation methods, such as the Lely method. You place the SiC powder between a graphite crucible, porous graphite tube, and it is sublimated. It then gets grown in an inert gas (argon), at 2500 degrees Fahrenheit. It is possible to form SiC crystals in flakes.

But, as the Lely method relies on spontaneous nucleation, it's difficult to manage the crystal shape of SiC crystals grown by this method. Also, crystal sizes are very small. There was an improvement to the Lely method: The physical gas transport method (or PVT). It has the advantage that SiC seed crystals are used to control the crystal structure of the grown crystal. This overcomes some of the weaknesses of Lay method for spontaneous nucleation. The single crystal SiC crystal can then be obtained and can be grown.

Silicon carbide ceramic
The process of reactive bonding which is used to make silicon carbide ceramics was created by Edward G. Acheson (1891). The Acheson process is where pure silica and coke react with an electric furnace. It can be heated to temperatures of between 2200 and 2480 degrees Celsius (4000 deg-4500 F). SiC ceramics exhibit excellent high-temperature bearing strength and dimension stability. Their high thermal conductivity makes them resistant to heat shock. High thermal conductivity is used to prevent extreme temperature variations between layers. This can be a source of thermal expansion stress. SiC makes a great kiln-furniture to help other ceramics through the firing process.

Silicon carbide Price
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
For the most recent SiC price please send an inquiry to receive a quotation. (brad@ihpa.net)

Silicon carbide Supplier
Technology Co. Ltd. (), is a trusted siC manufacturer as well as siC supplier. We have over 12 years of combined experience. All of our products are available for shipment worldwide.

Send an inquiry if you need high-quality silicon caride. (brad@ihpa.net)

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Boron Carbide Ceramic Armor

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Boron carbide ceramic armor is the strongest and lightest of all ceramic materials. It is often used in body armor and other applications. The material is chemically inert and has very high specific strength.

It was first introduced into bulletproof vests in the 1960s. Today, the material is also used in aircraft, boats, and land vehicles. However, it is not a material that can be mass-produced.

There are several players in the ceramic armor market, including ArmorWorks Holdings Inc., CeramTec GmbH, and Koninklijke DSM N.V. These companies all produce high-quality products. But they differ in their strengths.

Compared to pure boron carbide, calcium hexaboride ceramic armor has slightly lower density, but is slightly lighter. In ballistic tests, the composite material appears to outperform pure boron carbide.

Boron carbide ceramic armor is generally provided in rectangular tiles. Typically, they have a thickness of about 1/4 to 1/2 inches. Normally, the tiles are supplied in a rectangular shape with 8 to 18 inches of space on each side of the tile.

The tiles are usually manufactured by forming a precompacted billet and sintering it in a hot press process. After the boron carbide is cooled, it becomes extremely hard. This allows for easier drilling of holes.

Some companies also make non-sintering plugs. Non-sintering plugs can be configured according to composition, or they can be coated. Both of these methods have similar compaction characteristics as the boron carbide billet.

One of the newer players in the ceramic armor market is SINTX Armor. They plan to make a special composite of boron carbide and silicon carbide. Specifically, they will target law enforcement and civilian armor markets.


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Boron carbide uses

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Boron carbide (B4C is sometimes called Black Diamond. It is greyish-black in color and is very man-made.
Boron carbonide structure hexagonal crystal. Boron carbide density stands at 2.52g/cm3. Boron carbonide melting temperature stands at 2450. The material decomposes very quickly when heated above 2800.

Boron carbide properties
Boron carbide does not dissolve in water or organic solvents. Boron carbide, also known as semiconductive or neutron absorber because of its large cross-sectional thermal neutron capture and high neutron absorption capacities is considered neutron absorber.

Why is boron caride so good?
Extreme hardness
Low density
The melting point is high.
High elastic modulus
Chemical inertia
Cross-section of High Neutron Absorption
Outstanding thermoelectric performance

Boron carbonide uses
The material is suitable for many high performance applications due to its appealing combination of properties.
It is a good grinding powder to use for water jet cutting, polishing, and grinding metals. It can be used for polishing, drilling, grinding and all other types of processing, including moulds, parts and components of any cemented caride tool, mold, part, component, or gemstone. With the right amount of oil and water, you can turn Boron Carbide into polishing or grinding paste.

This material is ideal for making vehicle armor or car bodies. It has a low specific gravity, high strength and moderate toughness.
Boron carbide has been widely used to shield materials, control rods and neutron detectors within nuclear reactors. Because it absorbs neutrons while not forming radionuclides of long duration, it is versatile.
Because it's a p type semiconductor, boron caride could be an ideal candidate for high-temperature electronic devices.
Boron carbide also makes a great p-type thermoelectric material.

These are just a few of the many uses for boron caride:
Sandblasting nozzle.
Bearings for ball and roller.
Sealing parts
The wire drawing die.
Bulletproof vest

Boron carbide 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.
Send us an enquiry if you want to know the current B4C pricing. (brad@ihpa.net)

Boron carbide Supplier
Technology Co. Ltd. (), is a trustworthy boron caride manufacturer as well as boron supplier. We have over 12 years experience. All of our products can be shipped worldwide.

Feel free to email us to request high-quality Boron carbonide powder. (brad@ihpa.net)

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What is Titanium carbide used for?

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What is Titanium Carbide? The chemical formula for Titanium carbide is TIC. It has a molecular weight 59.89. Cubic lattice solid gray metallic with face center. Titanium carbide melting point at 3140 +-90 The titanium carbide boiling point at 4820 is 5.93. It is harder than 9 Mohs.
Titanium carbonide cannot be dissolved in water. However, it can dissolve in nitric and aqua regia. It can react with pure O2 at 1150 and is therefore stable to air below 800.

Where is titanium caride used?
It is also used in the manufacture of cemented carbide.
To prepare cermet, you can use titanium carbide. Due to its wear resistance and hardness, titanium carbide is used often for steel cutting at high speeds. This surface treatment is wear-resistant and can be applied to metal parts such as tools drills or watch mechanism mechanisms. It is used to provide thermal insulation for spacecraft re-entry.
The important component of cemented carbonide is titanium carbide. This is used to deoxidize steelmaking industries. The aluminum alloy 7075 (AA7075) has a strength comparable to steel but is 1/3 the weight. Without cracks from phase segregation, large parts of alloy can be welded using AA7075 rods with titanium nanoparticles.

Titanium carbide vs. Tungsten carbide
Tungsten carbonide has an Mohs hardness between 8.5 and 9, a melting temp of 2870degC, and low electrical resistance. This carbide is commonly used for cutting, braiding, armor piercing cores or high-hardness armor, and pointed beads which require high-hardness parts and atoms. This can be used to reflect neutrons.
Titanium carbonide costs less than tungsten caride but can be more difficult to use in cutting.
Combining titanium carbide with tungsten in sintered carbide tool materials can reduce the likelihood of tool pitting.

Price of Titanium carbide
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
Send us an inquiry if you want to know the current Titanium carbide TIC price. (brad@ihpa.net)

Silicon carbide Provider
Technology Co. Ltd. (), is a trusted titanium carbide manufacturer as well as TiC provider. It has over twelve years' experience. All of our products are available for shipment worldwide.

Feel free to email us and submit an inquiry if you're looking for high quality Titanium caride powder. (brad@ihpa.net)

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Silicon Carbide, Why Let a Person Love and Hate

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What's Silicon Carbide? Silicon carbide (also known as emery) is made up of quartz, petroleum coke or coal coke and wood chips. There are rare minerals found in Silicon Carbide. The most common and most economically-friendly silicon carbide can be found in contemporary C,N,B and other high-tech, non-oxide, refractory material raw materials. This type is also known as gold, steel sand and refractory. China's industrial production of Silicon Carbide is currently divided into green and black silicon carbide. These are both hexagonal crystals having a specific gravity 3.203.25 and a microhardness 2.8403.320 kg/mm.

Silicon Carbide

: History and Development American Acheson fused Diamond experiment discovered silicon carbide. He mistakenly thought he had found a diamond combination in his laboratory. Acheson then studied 1893 industrial melting silicon carbide methods. We often refer to Acheson furnace as being in use today. First detected in meteorites was silicon carbide in 1905. The first silicon carbide crystalled was made in 1907. Boston was the site of the inaugural World Silicon Carbide Conference, which took place in 1958 for scientific exchange. The research findings of CREE led to the establishment of a production line for silicon carbide. Suppliers began selling silicon carbide in 1987. Application of silicon carbide

Silicon carbide can be used as an abrasive. It can be used such as grinding wheels, whetstones, grinding heads, sand tiles; as a metallurgical deoxidizer, high temperature resist material, and high purity single crystal. It can be used by manufacturers of semiconductors, silicon carbide fibres, and other related materials.

Advanc3dmaterials (aka. Advanc3dmaterials is an advanced material. With over 12 years' experience, Advanc3dmaterials is an established global supplier of chemical material. High purity, small particles size, and low impurity are all hallmarks of the Silicon caride that our company produces. We can help you if the price is lower.
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Is titanium carbide hard?

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What is titanium carbonide?
Titanium carbonide is a iron-gray, cubic-shaped crystal that has metallic luster. The lattice constant for this simple cubic structure of NaCl-type is 0.4329 nm with an Fm3m-space group. The carbon atoms have the same properties as titanium atoms, while solid covalent bonds link TiC atoms. Tic is similar to metals in that it exhibits high melting point and boiling point as well as hardness. The hardness of Tic surpasses diamond's.
Uses of titanium carbide
In aerospace, nano-titanium caride is utilized. The melting point is above 3000. This makes it compatible with tungsten and has similar thermal expansion coefficients.
In many industries, titanium carbide is used to make wear-resistant materials and cutting tools. It can also be used for making molds, crucibles for melting metals, and other applications. Optical materials such as transparent titanium carbide ceramics, are also available. Abrasive titanium carbide ceramics are ideal for replacing traditional materials, such as silicon carbide and boron carbide. Its grinding performance is similar to that of synthetic diamonds. It is widely used across the globe, including in Japan, Russia, America and elsewhere. Abrasives and other products made from nano titanium carbide, such as grinding wheels or paste, can greatly improve the efficiency and precision of grinding and smoothen out surfaces.
The nano-titanium carbonide foam ceramic is used as a filter. This ceramic works by agitation or adsorption to remove any inclusions. It is essential that filter materials have a chemical stability. The filters in the metallurgical industries require high melting points. Therefore, most oxides are required to adapt to the filtration process of molten metal. A nano-titanium carbide ceramic has a higher strength, hardness and electrical conductivity than other oxide foam ceramics.

Prope chemical Titanium carbide
TiC has high chemical stability and is cubic in shape, light gray in color, and insoluble in water. However, it is not able to react with either sulfuric or hydrochloric, although it can be dispersed in aqua regia as well as hydrofluoric, nitric, and alkaline solutions.

How does titanium carbide get made?
High-purity carbon dioxide and high-purity carbon black can be used as raw materials. After the mixture has been thoroughly mixed, the powder is then formed in a carbon tube furnace, or vertical carbon tube furnace, at 1900-2300 in hydrogen. To obtain huge TiC, then it's pulverized into titanium carbide powder. Mixing sponge titanium with carbon black is another option. This involves combining sponge titanium, or titanium scrap, in a proportion that produces titanium carbide.

Titanium carbide prices
There are many variables that influence the market price of Titanium Carbide. The market price of Titanium carbide is changing rapidly at the moment. You can contact us anytime if you require it.

Provider of Titanium carbide
Advanc3dmaterials (aka. With 12 years experience, Advanc3dmaterials (aka. Our company currently has a number of powder materials. You can also order OEM. Please or click on any of the required products to submit an inquiry.


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Why Hafnium Carbide Can Form Solid Solution with Many Compounds?

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What is Hafnium Carbide? Hafnium carbide This gray solid needs to be stored at room temperature. Hafnium carbonide is capable of forming a solid solution when mixed with other compounds such as ZrC or TaC. One example is that of a composite carbide with HfC-4TaC. It has two phases. One is the eutectic form of hafnium carbonide tantalum caride. The other is a needle-like, free graphite phase. You can use it as the throat material for a rocket tube. Hafnium carbide is normally made from hafnium oxide (HfO2), carbon and an inert- or reducing atmosphere. It is heated to 1900 2300. Hafnium carbonide can be combined with several compounds (such ZrC, TaC etc.) to form a solid solution. ).


Introduction to Hafnium
Hafnium is often found in nature alongside zirconium. Zirconium minerals that contain hafnium all include zirconium. Hafnium, zirconium and both are very similar. In stone, beryllium zircon may contain as much as 15% HfO2. Metamorphic zircon can also contain more than 5% HfO2. Both of these minerals do not have much reserves so they are rarely used in industry. Hafnium can be mainly extracted from zirconium. To avoid accidental combustion, sponge hafnium must be carefully removed from the crucible. You should break large pieces of sponge hafnium down into smaller pieces. These can be used to make consumable electrodes and then melt them into ingots. It is important to prevent sponge hafnium from spontaneously combusting during crushing. Further purification of sponge haffnium follows the same procedure as for titanium and zirconium using the iodide-thermal decomposition process. Zirconium has slightly different control conditions. Keep the sponge hafnium blocks in close proximity to the iodization tanks at 600. For comparison, the temperature at the centre of the hot wire is 1600. That is more than 1300 for making a zirconium “crystal rod”. Forging, extrusion and tube drawing are some of the steps involved in molding hafnium.

Hafnium carbide's main uses
It is used primarily to produce control rods for nuclear power plants. Pure hafnium, which is a plastic material, can be processed at high temperatures and resists corrosion. It's an important component of the atomic energy sector. Hafnium, which has a high thermal neutron capture cross section, is an ideal neutron absorber. This can also be used to protect atomic reactors and as a control rod. Hafnium can also be used to propel rockets. The cathode of Xray tubes can be made from it in the electrical sector. Hafnium and other alloys can be used for the protection of frontal layers on rocket nozzles as well as glide reentry airplanes. HfT alloys can also be used in the manufacture of tool steels or resistance materials. Hafnium, an additive element, is used in heat-resistant alloys like tungsten and molybdenum. HfC, due to its high melting point and hardness, can be added to cemented carbides. HfC, the compound having the highest melting points is 4TaC *HfC, has an approximate melting point at 4215.

Hafnium Carbide: Price
Hafnium Carbide's purity and particle size will impact the price. The purchase volume may also have an effect on the price. Large quantities of smaller amounts will result in a lower price. On our official website, you can see the price for Hafnium Carbide.

Hafnium Carbide supplier
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd. Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical material. This company is a trusted supplier of high quality chemical materials and nanotechnology products with more than 12 year experience, such as Hafnium carbide, nitride or graphite powder, and sulfide and sulfide ores. We are happy to provide high-quality Hafnium Carbide at a low price. Get in touch Ask any question.

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Nanoparticles

Silicon Carbide Nanoparticles Nano SiC Powder CAS 409-21-2

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About Silicon Carbide Nanoparticles Nano SiC Powder:
Silicon Carbide( SiC ) Nanopowder, A grey-white powder composed of silicon carbide particles with diameters averaging 40nm. This material is known for its stability, refractory properties, wear resistance, thermal conductivity, small thermal expansion coefficient, and resistance to oxidation at high temperatures. These traits make it ideal for applications across a wide range of domains, with more being uncovered by the research of academics and engineers with each passing year.
As an important refractory material, nano-SiC is not flammable and chemically stable at high temperatures. Research on this topic shows that SiC nano paper is very stable when heated with an alcohol lamp. Due to the properties of SiC material, SiC nano paper has excellent non-combustibility, fire resistance and thermal stability. This independent feature has enlightening potential applications in improving the ablation resistance of high-temperature ceramic composites and high-temperature exhaust gas filtration and dust filters. Feel free to send an inquiry to get the latest price if you would like to buy Silicon Carbide Nanoparticles Nano SiC Powder in bulk.

Product Performance of Silicon Carbide Nanoparticles Nano SiC Powder:

Silicon carbide nanoparticles ( CAS 409-21-2 ) has high purity, small particle size, uniform distribution, large specific surface area, high surface activity, and low bulk density. It has excellent mechanical, thermal, electrical, and chemical properties. It has high hardness, high wear resistance, and good Self-lubricating, high thermal conductivity, low thermal expansion coefficient and high-temperature strength.


How is Silicon Carbide Nanoparticles Nano SiC Powder produced?
An organic-inorganic precursor is synthesized from industrial silica sol and water-soluble phenolic resin to prepare silicon carbide nanopowder. After high-temperature heat treatment, silicon carbide nanopowder is prepared through a carbothermic reduction reaction. The thermal decomposition process and preparation process of the precursor are analyzed. Silicon carbide nanopowder has more applications due to its smaller size.
 
Studies have shown that the preparation process of the product is simple, and it is a mixture of high-purity nano silicon carbide powder and silicon carbide whiskers. In the research of researchers from Northwestern Polytechnical University, NANO-SiC powder was synthesized by CARBO-THERMAL reduction method and its dielectric parameters in the frequency range of 8.2 to 12.4 GHz were measured. By changing the aluminum content and reaction atmosphere, β, 12H and 21R silicon carbide powders are obtained. Although the solid solution of Al and N will resist the resistance of SiC powder, the relative dielectric constant ε'r=30-50 of SiC powder is much higher than that of α-SiC powder, and the dielectric loss tangent (tgδ=~0.7). Polyacrylate/nano-SiO2 composite material has excellent film-forming properties, weather resistance, adhesion and high hardness, abrasion resistance and ultraviolet resistance of inorganic nanopowder.

Technical Parameter of Silicon Carbide Nanoparticles Nano SiC Powder:

Product NameMFPurityParticle SizeCrystal FormSSAColor
Silicon Carbide NanoparticlesSiC99%60nm, 500nmCubic29m2/gGray green

 

Application of Silicon Carbide Nanoparticles Nano SiC Powder:
Silicon carbide nanopowder has become the most commonly used material in structural ceramic applications. As an alternative to thermal expansion, higher strength weight percentage, higher variability, hardness, wear resistance and corrosion resistance, and most importantly, maintaining elasticity at temperatures up to 1650°C, these characteristics lead to a wide range of applications.
1.Ceramics
This nanopowder is used extensively in the production of high-frequency ceramic, heat resistant ceramic parts, textile ceramics,
and various other ceramic materials.
2.Abrasives
This material can be used to produce various abrasive surfaces and substances, including polishing abrasives, the surfaces of grinding tools, actual grinding materials, and related products.
3.Heat-resistant devices
High-temperature spray nozzles such as those used in aeronautics, heating elements, sealing valves, and other mechanical products intended to resist extreme temperatures utilize this material in their construction.
4.Rubber production
Rubber tires and other rubbers exposed to high temperatures and large amounts of wear take advantage of the properties of this nanoparticle.
5.Specialty coatings
Like many nanomaterials, silicon carbide can be used to produce countless specialty coatings, imparting some or all of its traits to the coated surface. Applications of this nature include abrasive surfaces, mirror coatings for UV resistance, and many others.
6.Their operations are more suitable for low-temperature wear than for high-temperature behavior. The uses of SiC include sandblasting injectors, automotive water pump seals, bearings, pump components and extrusion dies. These dies use silicon for their high hardness, wear-resistance and carbide corrosion resistance.
7.The structural use at high temperature extends from the throat of the rocket jet to the furnace roll, and the components of the exchange exchanger tube are made of silicon carbide with a combination of high strain rate, hardness and high-temperature stability.
8.This kind of heat-resistant ceramic has thermal shock resistance and high asynchrony, which is very suitable for manufacturing furnace lining and accessories.
9.It is used to make pencils, sandpaper, ceramics and as an abrasive for cutting or polishing.
10.Silicon carbide nanopowder is also used in the production of aerial mirrors. This material is used because it is very hard and resistant to thermal shock. Silicon carbide can also prevent mechanical fatigue, absorb moisture and cause space radiation.
11.Because it has high mechanical strength and lightweight. It limits the impact of armor weight on user performance (mobility and fuel consumption).
12.Because of its special characteristics, silicon carbide nanopowder is an alternative material in a variety of electronic applications, including chemical inertia at all temperatures, thermal shock resistance, hardness and abrasion sintering. Its main application in this industry is in the manufacture of stoves and process components used in the semiconductor industry as well as in electric field classification and surge protection.

Packing & Shipping of Silicon Carbide Nanoparticles Nano SiC Powder:
We have many different kinds of packing which depends on the silicon carbide nanoparticles quantity.
Silicon carbide nanoparticles packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
Silicon carbide nanoparticles shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.

 

Silicon Carbide Properties

Other NamesCarborundum, alpha sintered SiC, Hexoloy, methanidylidynesilicon,
moissanite, SiC powder
CAS No.409-21-2
Compound FormulaSiC
Molecular Weight40.1
AppearanceGreen to Black or Gray Powder
Melting Point2730 °C
Boiling PointN/A
Density3.0-3.2 g/cm3
Solubility in H2ON/A
Electrical Resistivity1 to 4 10x Ω-m
Specific Heat670 to 1180 J/kg-K
Tensile Strength210 to 370 MPa (Ultimate)
Thermal Conductivity120 to 170 W/m-K
Thermal Expansion4.0 to 4.5 µm/m-K
Young's Modulus370 to 490 Gpa
  
  

Silicon Carbide Health & Safety Information

Signal WordWarning
Hazard StatementsH315-H319-H335
Hazard CodesXi
Risk Codes36/37/38
Safety Statements26-36
Transport InformationN/A
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Silicon carbide semiconductor

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What is Silicon Carbide? A compound of silicon and carbide. The mineral moissanite is the source of this compound. Natural silicon carbide was named after Ferdinand Henri Moissan (French pharmacist). Moissanite occurs in meteorites as well as kimberlite or corundum. Most commercial silicon carbide today is artificial. Although silicon carbide isn't naturally found on Earth, there is plenty of it in space.

What are the advantages of silicon carbide?
Stable chemical properties of silicon carbide are high thermal conductivity, low temperature thermal expansion coefficient and wear resistance.

Silicon carbide semiconductor
The incomparable exceptional properties of silicon carbide make it a wide-band gap semiconductor material. This is because silicon carbide features high thermal conductivity and saturation as well as high electron drift rate, impact field strength, and is therefore used in many types of semiconductor materials. The majority of silicon carbide devices are power diodes or power switches. JBS diodes (PIN diodes) and superjunction dailies (SJBS diodes), while power switches include metal oxide semiconductor fields effect switches, junction field effect switching (JFET), Bipolar switches, BJT), insulatedgate bipolar transistors(IGBT), gate turning-off thethyristors (GTO), emitter turnoff thethyristors (ETO), and gate turn-off transistors (IGBT).
High frequency and high-efficiency silicon carbide semiconductors are particularly well-suited for high efficiency applications. This material can be used extensively in the following areas: solar inverter; vehicle power supply; motor controller for new energy vehicle; UPS, charging pile; power supply.

What does silicon carbide Inverter mean?
The silicon carbide-based Inverters have a higher power density than conventional inverters and require less cooling.

Silicon Carbide 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.
Send us an inquiry if you're looking for the latest SiC price. (brad@ihpa.net)

Silicon Carbide Supplier
Technology Co. Ltd. (), is a trusted siC manufacturer as well as siC supplier. It has over twelve years' experience. All of our products are available for shipment worldwide.

Send us an enquiry if you're looking for high quality Silicon Carbide Powder. (brad@ihpa.net)

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Application and Prospect of Titanium-Aluminum Carbide Max Phase

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Products features Research on MAX phases can be traced back as far as the 1960s by Nowotny, et al. It was Nowotny et al. who first introduced the idea of ternary transition metal carbides (or nitrides). Barsoum first referred to the materials as "Mn+1AXn phases" in 2000 (or simply MAX phase). In which M represents the transition metal element and A the primary element. X refers to either C or N.

Titanium-Aluminum Carbide Max phase

In the MAX Phase of the Ti-AL-C, the Al can be quickly diffused and selectively oxygenized. The compact Al2O3 coating will prevent further oxidization. It is possible for the material to self heal at high temperatures due to its microstructure. This property is important to preserve the mechanical properties of the material and increase its reliability. The strength of self-welded Ti3AlC2/Ti2AlC laminates are much better than those of single-phase materials.

Potential of Titanium-Aluminum Carbide Max phase

MAX products feature a variety of properties like high damage tolerance and good mechanical, thermal, and other properties. This has attracted much attention in the recent years

Advanc3dmaterials (aka. Advanc3dmaterials is an advanced material. Our company is an established global supplier of chemical material. With over 12 years' experience, we are able to provide high quality nano materials and chemicals. High quality Ti3AlC2 Max Phase is produced by our company.
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