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Performance And Property of Nitinol- A Metal with Memory

Nitinol It is made of shape memory alloy. This is a special metal alloy that, at a given temperature, can return to its original plastic shape.
Memory alloys have excellent wear resistance and corrosion resistance characteristics, as well as super-elasticity, super damping, and high damping.

What is Nitinol Performance?
As its name implies, nickel-titanium powder is a binary metal powder that is composed of both nickel and titanium. The austenite phase, and the martensite phases are different due to changes in temperature or mechanical pressure. The order of phase transformations during nickel-titanium alloys cooling is parent-R-martensite. The R phase has a rhombohedral shape, while the austenite cubes become hard and brittle when temperatures are high or when a load is removed. The shape of the material is relatively stable. The martensite is the state of a material at relatively low temperatures, or under loads. It is hexagonal, ductile and repeatable. It’s also unstable and easily bent.

What are the special properties of Nitinol?
Shape memory: Shape memory is formed when a parent phase is cooled to below Mf from above Af. This martensite phase is then deformed and heated back to Af. The material will automatically revert to its parent phase.

Superelasticity: Superelasticity is a phenomenon in which a sample under the influence of an external force produces a larger strain than the elastic limit strain, but the strain automatically recovers when the load is removed.
Sensitivity of orthodontic wires to temperature changes: The orthodontic power and strength of CoCr orthopedic wires is not significantly affected by temperature.

Corrosion resistance According to recent studies, the corrosion resistance between stainless steel and nickel-titanium is almost identical.

Anti-toxicity: Nitinol has a special composition. This is because it is an alloy containing nickel at about 50%. Nickel is well known for its carcinogenic effects.

Gentle orthodontic power currently commercially used orthopedic wires include austenitic stainless steel wires, cobalt-chromium-nickel alloy wires, nickel-chromium alloy wires, Australian alloy wires, gold alloy wires and nickel-titanium alloy wires.
Good shock-absorbing characteristics: The greater vibrations of the archwire due to chewing or night molars will cause more damage to the roots and periodontal tissues.

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Nitinol It is made of shape memory alloy. This is a special metal alloy that, at a given temperature, can return to its original plastic […]

Tantalum Carbide ceramic is a ceramic that contains a seven-crystal phase of Tantalum Carbide

What is Tantalum carbide? Tantalum carbide (TaC), a binary compound containing Tantalum and Carbon, has the empirical formula TaCX. X can vary between 0.4-1. Metal-conductive ceramic materials that are extremely hard and brittle. They are brownish gray powders that are normally sintered.
Tantalum Carbide can be found in cutting and grinding tools, as well as being added to alloys containing tungsten Carbide.
Tantalum carbide ceramics contain seven crystal phases of Tantalum carbide. The chemical formula of TaC, face centered cubic lattice. The theoretical density of Tantalum Carbide is 1.44. Its melting point is between 3730 and 3830 deg. C., its thermal expansion coefficient is 8.3×10-6. This value is highest among binary compound. Hafnium carburide is the only binary compound with a higher melting temperature, around 3942 deg C.

TaCX Powders of the required component are prepared by heating a tantalum powder and graphite in a vacuum (argon) or in an atmosphere of inert gases. The heating at 2000degC can be done using an arc melting device or a furnace. In a vacuum or hydrogen-filled atmosphere, tantalum is reduced with carbon by reducing it in 1500-1700degC. Tantalum Carbide, a product of this method, was first produced in 1876. But the lack stoichiometric measurement of the final product caused the production to be reported as a direct TaC by high-temperature self-spreading.
The complex mix of metals, ions and covalent contributions is what forms the bond between tantalum atoms and carbon atoms. The strong covalent structure of these carbides makes them very hard and fragile. TaC for example has a hardness of 160-2 000 kg/mm2[16]( 9mohs), and an elastic module of 285 GPa. The corresponding values of tantalum is 110 kg/mm2[16]( 186 GPa)
Tantalum Carbide is electrically conductive to metals, both size and temperature-dependent.TaC is a kind of superconductor with high transition temperature Tc = 10.35 K.

What is the strength level of tantalum carbide?
Tests of Vickers Hardness, Fracture Toughness, and Relative Density of a sample series confirm that TaC possesses best mechanical properties when tested under 5.5 GPa at 1300 degC. TaC has a relative density of 97.7%. It also has a fracture toughness of 7.4 MPa m1/2, as well as a Vickers Hardness 21.0 GPa.

What are the uses of tantalum carburide?
Tantalum carbide is a strong antioxidant. TaC’s antioxidant properties are strong. TaC is synthesized in an inert, reductive or inert atmosphere from tantalum hexoxide and black carbon as a brass-like powder. Hot pressing and sintering produces products with a high density, metallic luster. Additives for aerospace materials. Tantalum carbide is an metallic powder with cubic crystals of sodium chloride. It’s a brownish-light metallic powder. It is insoluble with water and inorganic acids. However, it is soluble when mixed with hydrofluoric, and nitric, acid. It has a high oxidation resistance, and it is easily melted and decomposed with potassium pyrosulfate. Electrical conductivity is very high, and the resistance is 30O at room temperature, indicating superconductivity.
What are the uses of tantalum carburide? Tantalum carbide has excellent physical properties. It is widely used in the sintering of ultra-high temperature (UHTC) ceramics or as a ceramic in high-entropy (HEA) alloys.
Tantalum carbide can be added to powder metals, cutting tools and fine ceramics. It’s also used in chemical vapor deposition for hard-wear alloy tools. Titanium Carbide is available in golden yellow sintered form and can also be used for watch ornaments. Tantalum Carbide is also used to prevent grain growth when sintered cemented Carbide of a density of 14,3g/cm3 is produced.

Is tantalum carbide toxic?
Tantalum Compounds. The systemic toxicities of tantalum dioxide, as well those of metallic tantalum are low. This is due to their poor solubility. Carbides : Pure carbon is very low in toxicity for humans. It can be safely handled, and even ingested as graphite or charcoal.

Poseidon is a deep-sea unmanned submersible
According to the journal Scientific Reports, a team of researchers at Imperial College London determined that the melting points of Tantalum Carbide at 8:2 are 3768 deg C (for the ceramic) and hafnium Carbide at 3958 deg C (for the metal).
Tantrum Carbide (also known as hafnium Carbide) and hafnium Carbide resist high temperatures better than all other materials. They protect the spacecraft against the extreme heat during exit or reentry.
Omar Sediroth Baraza, a researcher, said that future supersonic flights could use Tantalum Carbide (or hafnium Carbide) for the spacecraft’s nose cap, as well as scientific equipment. It could also make supersonic aircraft shells, which could fly from London and Sydney in only 50 minutes.

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What is Tantalum carbide? Tantalum carbide (TaC), a binary compound containing Tantalum and Carbon, has the empirical formula TaCX. X can vary between 0.4-1. Metal-conductive […]

Nitinol Metal Powder – Property and Preparation

What are the properties of nitinol metallic powder?

Nitinol Metal Powder (Niti alloy powder) is a Shape Memory alloy (SMA, for short). It has the ability to completely eliminate deformation when heated at lower temperatures, and restore it after heating again. The alloy material with “memory’ effect is the alloy material that retains its original shape.

Many successful applications of nitinol metallic powder have been made in the aerospace industry. Memory alloys can be used for the antenna on an artificial satellite. Fold the parabolic satellite antenna into the body of the artificial satellite before it is launched. It is only necessary to heat the satellite after the rocket launches to place it in a specific orbit. The “memory function” of the folded antenna allows it to unfold and restore its parabolic shape.

Shape memory alloys have many applications in aerospace, electronics and machinery, biomedicine, bridge building, automobile industry, and everyday life.

What is the best way to prepare nitinol metallic powder?

The following raw materials are used for the PREP process to produce spherical metal powder of nitinol: NiTi bars.
The steps of preparation for the PREP method for the preparation of spherical Nitinol Metal Powder are: the raw materials must be weighed and proportioned in accordance with the experimental design plan and then poured directly into the cemented carbide tank ball milling for wet grind. The ball milling period is 24 hours. After the ball-milling, the pellets are vacuum-dried, with a drying temperature of 38deg C. for 50 minutes. They are then added as an forming agent to the granulation. The powdered material is placed in a single-column press to be compressed, then it is placed in an integrated dewaxing-low-pressure sintering oven for sintering.

Using NiTi bars as raw materials and after batching (ball milling), drying, granulation (granulation), forming, and silicification, the PREP technique with its excellent mechanical properties has been successfully developed to produce spherical NiTi metal powder. The martensite transformation temperatures decrease with decreasing particle sizes of nitinol metallic powders. The PREP method produces spherical metal powders of nitinol, which are improved in terms of hardness, density and bending strength.

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What are the properties of nitinol metallic powder? Nitinol Metal Powder (Niti alloy powder) is a Shape Memory alloy (SMA, for short). It has the […]

Water atomization is one of the important preparation methods for 3D printing metal powder

technology allows for 3D printing. Its most notable advantage is the ability to generate parts in any shape directly from computer graphics data, without any machining and molds. This greatly reduces the product development cycle while increasing productivity and reducing costs. Metal powder, the main raw material in 3D printing metal parts, has caught people’s interest. 3D Printing Metal Powder is the most valuable and important part of 3D Printing Industry Chain of Metal Parts.

Metal powder preparation process

The metal powder preparation processes can currently be divided into reduction, electrolysis and carbonyl decomposition methods, as well as grinding, atomization etc. Depending on the preparation process. In the powder metallurgy sector, powders produced by reduction electrolysis or atomization are the most commonly used raw materials. The atomization technique can be used for alloy powder production, and modern atomization can also control powder shape. The development of the atomization cavities has greatly improved the efficiency of atomization, making the atomization technique the most popular method to produce powder. The atomization technique meets the specific requirements of 3D printed consumable metals powder. The atomization process is a mechanical method for pulverizing the molten metal to particles of a size less than or equal to 150 mm.

Water atomization

The water atomization process is one of the cheapest methods of production for atomized powder. The atomization media water is cheap and easy to get, but it also provides excellent atomization. The domestic water atomization technique is used mainly to produce steel, matrix powder for diamond tool, pre-alloy, powder for hard-surface technology, and iron and nickel-based magnet powders. The specific heat of water being much greater than the gas’s, it is possible that the metal droplets will solidify and become irregular during the atomization. Water will react with other metals or alloys that have a high level of activity. In addition, contact with the water during the atomization will increase the amount of oxygen in the powder. This limits the use of water atomization for metal powders of high sphericity with low oxygen contents.

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technology allows for 3D printing. Its most notable advantage is the ability to generate parts in any shape directly from computer graphics data, without any […]

Titanium Diboride Powder Properties And Applications

It is important to note that the word “you” means “you”. titanium diboride The powder is grayish-black with a hexagonal structure (AlB2). It has a high degree of hardness and a melting temperature of 2980degC. The titanium diboride anti-oxidation in the air reaches 1000 degrees Celsius, and is stable with HCl acid and HF.

Titanium Diboride Powder Properties

The compound TiB2 is the most stable of all the boron-titanium compounds. It has C32 structure, and valence bonds are used to combine it. It is a hexagonal metalloid. The crystal’s structural parameters are: C is 0.3228nm; a is 0.302nm.
The two-dimensional network formed by the boron plane and titanium plane forms alternately in the crystal, where B is covalently linked with three other Bs. An extra electron creates a large p-bond. This graphite like layered structure between boron electrons and Ti outer layers determines TiB2’s good conductivity, metallic luster, and hardness.

Titanium Diboride Powder Applications

Titanium Diboride is used primarily to prepare composite ceramics. Due to its resistance to corrosion in molten metallic crucibles or electrolytic cell electrodes, titanium diboride can be used.

1. Conductive ceramics. Titanium Diboride is one the main raw materials in the vacuum coated conductive evaporation vessel.

2. Ceramic molds and cutting tools. Titanium Diboride can also be used to make finishing tools, wire drawings dies or extrusion dies.

3. Composite ceramic materials. Titanium diboride may be an important component for multiple composite materials. It can also be used in composite materials, along with TiC, TiN or SiC, to produce various high temperature parts. It can also be used for armor protection. One of the most effective materials.

4. Cathode coating for aluminum electrolytic cell. TiB2 can be used as a cathode for the aluminum electrode cell due to its good wettability.

5. Titanium diboride may be used as a PTC heating material and flexible PTC material. Its characteristics include safety, power savings, reliability, easy processing, and molding. It is a new high-tech product that combines various electric heating material.

6. Titanium Diboride is an excellent strengthening agent for Al Fe Cu and other metals.

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It is important to note that the word “you” means “you”. titanium diboride The powder is grayish-black with a hexagonal structure (AlB2). It has a […]

The Properties And Application of Titanium nitride

Titanium Nitride (TiN), a non-stoichiometric compound, has a structure similar to NaCl. It is a face-centered cube with a lattice of a=0.4241nm. The titanium atoms can be found at the corners tops. TiN has a nonstoichiometric composition, which is TiN0.37 – TiN1.16. Changes in nitrogen content are possible within a specified range without altering the structure of TiN. TiN powders are usually yellowish-brown, ultrafine powders are black and TiN crystalline forms are golden yellow. TiN has an excellent thermal shock resistance, a melting temp of 2950degC and a density of 5-4.44g/cm3. TiN is more heat-resistant than other transition metals because of its higher melting point. The TiN crystalline structure is very similar to TiC. However, the N atoms are used instead of C atoms.

Nature introduction

TiN is an extremely stable compound. It will not reacted with metals, such as iron and chromium at high temperature. Also, TiN crucibles won’t react with acidic Slag in CO and N2 atmospheres. TiN is a very stable compound that is not reactive with metals such as iron, chromium, calcium and magnesium at high temperatures. It can also be used in conjunction with alkaline-slag to study the interactions between molten steeel and certain elements. TiN, when heated under vacuum, loses nitrogen and becomes titanium nitride that has a lower nitrogen content.

TiN has a beautiful golden color. It also has a very high melting temperature, possesses exemplary chemical stability, and is not wettable to metals. It has high superconductivity, high electrical conductivity, and can be applied in structural materials that are high temperature. It is also superconducting material.

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Titanium Nitride (TiN), a non-stoichiometric compound, has a structure similar to NaCl. It is a face-centered cube with a lattice of a=0.4241nm. The titanium atoms […]

The single compound with the highest melting point on Earth is hafnium carbide

Hafnium carburide (HfC), a chemical compound composed of hafnium, is a combination of carbon and hafnium. It has a melting point around 3900 degrees Celsius, making it one of the most refractory binaries known. The compound has a very low oxidation resistance. Oxidation starts at temperatures of as low as 432 degC. It is possible that this compound will be used as a heat shield in future spacecraft.
Is hafnium carbide toxic?
Hafnium Oxychloride was found to be toxic by intraperitoneal route during animal studies. Hafnium-related industrial poisonings have not been reported. Carbides – Pure carbon is very low in toxicity and can even be ingested as charcoal or graphite.

What is Hafnium Carbide HfC made of?
Hafnium carburide powder can be prepared by reducing the hafnium oxide and carbon at temperatures between 1800degC and 2000degC. This requires a longer time to completely remove oxygen.
Hafnium carburide is a dark grey brittle solid. It can be produced by heating elements together or by reacting hafnium chloride with methane. Hafnium oxide, or metal sponges can be obtained in sufficient quantities for the production of zirconium at high scales. In an industrial setting, hafnium can be produced from hafnium oxide or metal sponge by vacuum-carburizing it in hydrogen. The carbide consists of almost the full amount of carbon (6.30%degC), with up to 0.1% in free carbon. The hafnium carbon obtained is not true stoichiometric, but a solution of carbon at a particular interstitial position in the face-centered cubic structure.
Carbonization will not dissolve in hydrofluoric solution at room temperatures, but is inert with most reagents. Carbonization is exothermic with halogen between 250 and 500degC, forming hafnium trihalide. Above 500degC it forms hafnium oxygen. Hafnium carburide loses some carbon when hydrogen is present.

Titanium Carbide Powder
Hafnium Carbide (HfC), which has the highest melting points of all binary alloys, has many applications at high temperatures. It’s a candidate material for high-temperature components, like rocket nozzles or scramjets. Carbonization can be used for hard coatings. These are usually applied using processes like plasma spraying. HfC structural plastic foam can also be made into components for high temperatures or used as thermal insulation.

Hafnium carburide (HfC), which has a melting point greater than 3890degC and is a refractory compound, is made up of two components. HfC or NBC can be used to coat nuclear reactors. Ta4HfC5 mixed carbide has a melting point of 4215degC.

1. Hafnium carbide can be used to add to cemented carbon, which is used widely in the cutting tool and mold industry.
2. Hafnium carbide can be used as a material for the rocket’s nozzle. In the aerospace industry, it can also be utilized in the nozzle or high-temperature liner, arc, electrode, or electrode redox.
3. Hafnium carbide is used as a control rod in nuclear reactors. It is the perfect metal for nuclear reactor rods.
4.Used for ultra-high temperature ceramics.
5.Reactant to synthesize hafnium containing organometallic Polymer
6.For coating.

The substance with highest melting point on Earth
Hafnium carbide is the only compound on Earth with a melting temperature of 3890 degrees Celsius. The hafnium compound known as tetratantalum Hafnium Pentacarbide has the highest melting temperature on earth. Its melting point is 4215.
Hafnium has an atomic weight of 72 and is a metallic silvery gray transition metal. The earth’s surface contains a 0.00045% amount, and it is frequently associated with the zirconium element in nature.
The hafnium is so popular as a forward protection layer for rockets and aircraft because it has a high corrosion and temperature resistance.

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Hafnium carburide (HfC), a chemical compound composed of hafnium, is a combination of carbon and hafnium. It has a melting point around 3900 degrees Celsius, […]

What is nano titanium black biofilm?

Nano Titanium Black Biofilm Nano-titanium The black biofilm pigment is an inorganic composite with excellent blackness. This material has high activity, pure blackness, and a good level of blackness. Nano titanium black is also known as black titanium metaloxide. Nano-titanium The black biofilm material is a ceramic-crystal non-stick coating. The coating is safe, non-toxic, and combines anodized aluminum substrate technology. It’s easy to clean and has stable physical characteristics. It also doesn’t produce harmful substances that can harm the body. Its surface technology uses the new upgraded ceramic crystal treatment technology. This technology uses ceramic molecules as a basic material, and then processes it using advanced technology to produce super-hard crystals. The superior far-infrared technology allows the food to be heated uniformly and in three dimensions.

Nano Titanium Powder
Titanium dioxide nanoparticles (1-100nm in size) are titanium nanoparticles. They are cheap to produce and have many uses, including optics and materials science.
In personal hygiene products like deodorants and shampoos as well as toothpaste, nano-titanium can be found. These products contain titanium dioxide at a weight of 1-10%.
The titanium-containing products can easily be dispersed into water as stable colloidal particles. This is why they are used in so many different applications.
The titanium nanoparticles used in cosmetics, sunscreens, and other products protects the user from UV rays.
The particles are typically coated with non-toxic silica, or another stable and non-toxic layer to reduce or prevent the photocatalysis.
Nano titanium’s safety is a concern. When applied to skin, the particles reach the deepest part in the uppermost layer and collect within the hair follicles. Photocatalysis can produce reactive oxygen species that damage DNA and cells.

Nano titanium powder particles size
Titanium nanoparticles used in resins and coatings can be applied to the surface of materials for long periods without oxidation. The nano-titanium surface-treated can solve the problem of dispersion well. The particle size is only 80nm while the purity is at 99%.

Application of titanium Nanoparticles
Nano-titanium is a material that can be used to extend the life span of artificial joints.
The nanoparticles used in the coating of artificial joints provide better wear resistance on hard surfaces. This coating can also be used on other implants to improve biocompatibility or reduce the risk for bacterial infections.
Nano titanium powders can also be applied to metals, including non-repairing metals.
The taste of metals does not change when titanium is used. The coating has a wide range of applications in the food industry.
Nano-titanium coated coatings improve coating performance and cost in industries such as petrochemicals and food.

How is titanium nanoparticles made?
Mechanochemical processes can be used to solve this problem. Nano titanium powder is an inorganic inorganic additive that has poor dispersion and interface compatibility. You can explore the differences by adjusting your speed, liquid-solid ratio and abrasive’s viscosity. In the nano-grinding of titanium powder there are laws of nano-action, and by analyzing these laws, the best grinding parameters can then be determined. The abrasives epoxy resin and polyamide can be used under the guidance of this parameter to refine and modify micron titanium. By using polyamide and Epoxy resin as abrasives to refine titanium powder, it is possible to reduce its surface hydrophilicity.

Titanium nanoparticles: price and availability
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Nano Titanium Black Biofilm Nano-titanium The black biofilm pigment is an inorganic composite with excellent blackness. This material has high activity, pure blackness, and a […]

New technology in the field of charging heads—gallium nitride charger

Gallium Nitride: Overview This is an inorganic material with the chemical formula GaN. It’s a combination of nitrogen and galium that acts as a semiconductor with a large direct energy gap. It is widely used since 1990 in light-emitting devices. This compound has high hardness and a similar structure to wurtzite. Gallium Nitride has an energy gap of about 3.4 electron-volts. This can be useful in high-power, high-speed optoelectronic component. Gallium nitride is used, for instance, in violet lasers and non-linear solid-state semiconductor lasers. The conditions allow for the production of a laser that emits a violet light (405nm).

Gallium Nitride: Properties and Stability
1. Avoid contact with heat and moisture.
2. GaN starts to decompose at 1050degC: 2GaN(s)=2Ga(g)+N2(g). GaN crystal belongs in the hexagonal system wurtzite-type lattice, as shown by X ray diffraction.
3. It is known that GaN remains stable even at high temperatures. The vapor pressure of GaN at 1130 degrees is lower than what can be calculated using enthalpy, entropy and temperature. This is due the polymer molecule (GaN).
4. Cold or hot water, diluted or concentrated hydrochloric or sulfuric acids, or cold 40% of HF, will not dissolve GaN. It is stable with cold concentrated alkali. However, it can be dissolved by heated alkali.

Gallium nitride material introduction
GaN is the latest semiconductor material to be developed. It is a semiconductor material used for microelectronics and optoelectronics. Along with other semiconductor materials, such as SIC or diamond, this material is often referred to as the successor generation of Ge and Si. Semiconductor material, second-generation GaAs and InP compound semiconductors materials. It has a large bandgap direct, strong atomic ties, high thermal conduction, good chemical resistance (not easily corroded by acid) and a strong anti-radiation capability. It’s used in high temperature, high power and optoelectronic devices.

What is the gallium nitride charge?
Gallium nitride can be described as the core material for third-generation semiconductors. Comparing gallium nitride with silicon, it has a larger bandgap. The wider bandgap means that gallium is nitride has higher conductivity and can withstand greater voltages. With the same volume of both materials, gallium is far more efficient than silicone.
In many power-management products, gallium is more prominent. At the application-level, gallium nitride is used to charge faster and in a smaller space.
Users will benefit from faster charging but not more volume. Due to the GaN material’s characteristics, the charger can be made smaller and lighter, and it will also have a significant increase in the heat generated and the efficiency of conversion. The heating efficiency will decrease significantly for many products like CPUs, charger heads, etc.

What is the price of gallium-nitride charger?
They are also very easy to use. These chargers are small and have a higher efficiency. They can be used to meet many of the demands of modern life, but are expensive.
According to current market prices, the 120w GaN notebook charger is usually around 300 Yuan. That is two or three times more expensive than the standard 120w charger. Comparing the 120W GaN to the 65w GaN, it is roughly three times more expensive. A 120w charger will buy a normal 120w computer power supply plus a GaN 65w charger.

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Gallium Nitride: Overview This is an inorganic material with the chemical formula GaN. It’s a combination of nitrogen and galium that acts as a semiconductor […]

Introduction to Properties and Applications of Amorphous Boron Powder

What is Amorphous Boron Powder Boron Powder CAS no. 7440-42-8, appearance is light brown to gray black invisible powder, melting temperature 2300+- 2, atomic weight 10.81, L Hua Temperature 2550, specific Gravity 2.34-2.37. Insoluble in water, chloric acid, alcohol and ether. Is 7440-42-8. Appearance is a gray-black to light brown powder. Atomic weight is 10.81. L Hua temperature is 2550. Specific Gravity is 2.34-2.37. Not soluble in water or hydrochloric.

Amorphous Boron powder: Its Properties
On the periodic chart, boron occupies a special place between metals. It has a large nuclear charge, a small atomic radius and possesses more active chemical characteristics. It is extremely stable at normal room temperature. When heated above 300 degrees it will become oxidized and begin to smell when over 700 degrees. It can also interact at high temperatures with oxygen, sulfur, nitrogen, halogen, carbon and many other metals.

The Use of Applications Amorphous Boron Powder
Amorphous boron is commonly used in the metal smelting industry, ceramic manufacturing industry, chemical industry, and nuclear industry. Amorphous Boron is used for the following specific purposes:
1. Amorphous Boron Pulp is a good non-metallic fuel for pyrotechnics. Amorphous boreon powder’s ignition temperature is reduced by a large amount due to the irregular shape and high specific surface area.
2. Amorphous Boron is also a key raw material used to produce high-purity boron halite and other boride products.
3. Amorphous Boron Powder, used to deoxidize metals at high temperatures, is a part of the Oxygen-free Copper Smelting Deoxidizer.
4. Amorphous Boron Powder may be used in alloys to improve metal properties and form alloys.
5. Amorphous Boron Powder has more active chemical properties than crystalline boron. Crystalline Boron is a very hard material, and is often used in place of diamond for cutting tools or drill bit.
6. Boron Amorphous powder can be used to assist in welding.
7. Amorphous Boron is a very important energy source. It can be used as solid fuel for composite solid propellants. The calorific values of boron are more than double those of carbon and aluminum, as well as more than two times those of magnesium. The volumetric calorific content of boron is the highest. It is three times more than hydrocarbon fuel and has a density that is slightly less than aluminum. Energy-wise, boron is the best nonmetallic fuel. The irregular shape of amorphous boran and its large surface area also reduces the ignition temperature. ;
As an additive to high-temperature steelmaking high magnesia furnaces, boron amorphous powder is available.

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What is Amorphous Boron Powder Boron Powder CAS no. 7440-42-8, appearance is light brown to gray black invisible powder, melting temperature 2300+- 2, atomic weight […]

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