Tag: applications

The properties and applications of Iron Oxide Fe3O4

What is Iron O2O4 ? Iron O3O4, a type inorganic substance, has the chemical formula Fe3O4, black crystals with magnetic, and is sometimes called magnetic iron oxide. It cannot be considered Fe(FeO2)2, or as a mixture between iron oxide FeO3 and ironoxide Fe2O3, however, it can be roughly regarded as a compound containing ferrous oxide and iron dioxide (FeO*Fe2O3). The substance is not soluble in water, alkali solutions, alcohol, ether, or other organic solvents. Iron Oxide Fe3O4 from natural sources is insoluble when it comes into contact with acid solutions. However, the iron oxide (Fe2O3) can be easily oxidized to Iron Oxide Fe3O4 (Fe2O3) when exposed to air. It is often used as a polish and pigment, as well to make audiotapes and other telecommunications equipment.

How is Iron Oxide, Fe3O4, Produced?
Schikorr reactions produce iron oxide Fe3O4. This reaction turns iron (II), OH (Fe(OH),2) into iron oxide, II, III (Fe3O4). Anaerobic conditions cause ferrous hydroxide(Fe(OH),2) to oxidize in water and form magnetite, as well as molecular hydrogen. This process is described in Schikorr’s reaction.
3Fe(OH)2-Fe3O4 + H2 + 2H2O
What is Fe2O3 and Fe3O4 different?
Fe2O3 vs Fe3O4 are two different minerals. Fe2O3 is paramagnetic and has only Fe2+ oxidation while Fe3O4 ferromagnetic materials have both Fe2+ or Fe3+ oxidation.
What are some properties of Iron Oxide Fe3O4?
Fe3O4 is ferrromagnetic and has a Curie Temperature of 858K. The Verwey transition is a phase transition that occurs at 120K. This transition is where there is a discontinuity between the structure, conductivity, and magnetic properties. While many explanations have been suggested, the effect has not been fully understood.
Although it has an electrical resistivity that is higher than iron (96.1% nO m), Fe3O4’s electrical resistivity is much lower than Fe2O3’s (approx. kO.m). This is due to electron exchange between FeII and FeIII centres in Fe3O4.
Iron Oxide, Fe3O4
Iron Oxide Fe3O4 also known as iron black, magnetite and black iron dioxide can be used for many purposes.
Black pigments are also known as Mars Black, and Iron (II or III) oxide.
It is used in Haber processes as a catalyst.
It is used to produce the water-gas shifting reaction.
MRI scanning employs Fe3O4 Nanoparticles to contrast them.
It protects the steel against rusting.
It is an element in thermite and is used to cut steel.
It can also produce special coatings, high-grade magnetic separators and microwave absorption materials.

What is Iron O2O4 ? Iron O3O4, a type inorganic substance, has the chemical formula Fe3O4, black crystals with magnetic, and is sometimes called magnetic […]

The Applications of Boron Carbide Powder

Overview of Boron Carbide powder Boron carbide It is low in density and strong, has good high temperature stability, chemical stability, as well as good strength. It is therefore widely used in wear-resistant material, ceramic reinforcement phases and lightweight armor. Boron carbide has a lower cost of production than diamond and cubic-boron nitride. This makes it more popular. It is sometimes used in place of expensive diamonds for polishing and grinding, drilling, etc.
B4C powder features high purity, low particle size distribution and a large specific surface area. B4C powder can be described as a synthetic superhard materials with a hardness level of 9.46, a microhardness range of 56-6200Kg/mm2, an average of 252g/cm3, a melting point at 2250 degrees Celsius and a ratio of 2.52g/cm3.
Chemical properties, non-magnetic. High temperature and low temperature resistance. Strong acid. Strong alkali. Boron carbide has the ability to absorb neutrons, emits no harmful radiation and is not subject to secondary radiation pollution. It is less hard than diamond. Boron carbide, one of the most stable acids, is stable in all concentrated and dilute acid solutions. Boron carbonide is stable at 800 degrees Celsius in an ambient air temperature. The boron dioxide, which is the result of oxidation at high temperatures, is lost in gas phase. This makes it unstable and oxidizes to carbon dioxide and/or boron trioxide.
Boron carbide absorbs a large amount of neutrons and does not form radioactive isotopes. It is a great neutron absorber for nuclear power stations. It is used to control nuclear fission’s rate. Nuclear reactors use Boron carbide. It is made into controllable rods but can also be powdered because of its larger surface area.

Boron Carbide B4C Powder Cas 12069-32-8

What are the potential applications Boron Carbide powder?
Control nuclear fission. It can absorb a large amount of neutrons without creating radioactive isotopes. It is a good neutron absorber to nuclear power plants. It is primarily used to control the rate at which nuclear fission takes place. The majority of Boron is made into controllable rods for nuclear reactors. However, the surface area increases can sometimes make it into powder.
Abrasive: Boron Carbide has been used for many years as a coarse abrasive. The powder is hard to use in artificial products because of its high melting points, but it can be melted into simple shapes. It can withstand high temperatures. Useful for polishing, grinding, drilling, drilling, and grinding hard materials, such as gems and cemented carbide.
Boron carbide is also a coating paint that can be used on warships and helicopters. The coating forms an overall defense layer and is light in weight.
Nozzle: Boron carbide can be used to make a spray gun nozzle for the ordnance business. Boron carbide is very hard and wear-resistant. It does not react to acid or alkali and can withstand high temperature/low temperatures and high pressure. Boron carbide is used to make metalborides and to smelt boron, sodium-boron and boron alloys.
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Overview of Boron Carbide powder Boron carbide It is low in density and strong, has good high temperature stability, chemical stability, as well as good […]

The Applications of Amorphous Boron Powder

Amorphous Boron Pulver
An element boron, which is a dark brown or black powder. It can be oxidized in air to prevent internal boron being oxidized by the formation of a trioxide film. Boron is insoluble in water,boron powder is soluble in boiling nitric acid and sulfuric acid,and most molten metals such as copper,iron,manganese,aluminum and calcium.The content of boron in the earth’s crust is 0.001%.Boron is black or silver Gray solid.Crystal boron is black,the hardness is second only to diamond,and the texture is relatively brittle.Boron is named Boron,its name is derived from Arabic,the original meaning is “flux”.It means that the ancient Arabs already knew that borax has The ability to melt metal oxides is used as a flux in welding. Boron has the highest volumetric heat. It is also second in weight to beryllium.
Amorphous Boron powder MF.B. Molecular weight 10.81; melting point 2300+-2; Sublimation Temperature: 2550. relative density 2.34-2.37. Solubility in water, hydrochloric Acid, ethanol and the ether. It is easy to freeze. The solution is reduced to hydrogen and oxidized by concentrated sulfuric and nitric acids to make boric acid.
Amorphous Boron powder is stable and reliable. It can be stored for a very long time. You can customize products according to your requirements.
Boron B Powder Amorphous CAS 7440-42-8

What are the uses Amorphous Boron powder?
Amorphous Boron powder is mostly used in metallurgy.
The alloy can also contain amorphous Boron powder as an additive or compound.
Amorphous Boron powder is an important raw material in the production of many borides.
An amorphous powder of boron can be used as a catalyst to produce organic chemical reactions.
Group gatherings can affect the dispersion and use of boron dust. The amorphous powder should be stored in a sealed vacuum container and kept dry in a cool, dry place. Additionally, avoid stress with amorphousboron powder.
Amorphous Boron Powder
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Amorphous Boron Pulver An element boron, which is a dark brown or black powder. It can be oxidized in air to prevent internal boron being […]

Zinc Sulfide Powder Properties And Applications

Zinc sulfide This powder is white to off-white, or light yellow in color. It becomes darker as it is seen. Zinc sulfuride is stable in dry conditions, but if left in humid or moist air for long periods of time, it will oxidize to zinc oxide.

Zinc sulfide powder properties

Zinc sulfuride is an organic compound with the chemical composition ZnS. Zinc sulfide will slowly oxidize if it is placed in moist air or has moisture. Zinc sulfide can be found in sphalerite. However, it is not soluble or soluble when it comes into contact with water.
Zinc sulfuride becomes crystals when it is burned in H2S. The a variation is a colorless hexagonal crystal having a density 3.99g/cm3 at a melting point of 1750°C. The b variant is an inorganic cubic crystal of colorless with a density 4.992g/cm3. It is then transformed into the a variety at 1020°C.

Zinc sulfuride is usually obtained through the action of hydrogen Sulfide and zinc Salt Solution. A small amount of Cu Mn, Ag can be added to activate the crystalline ZnS and it will emit different colors of fluorescence when illuminated.

Zinc Sulfide Powder Application

Zinc sulfuride is used for analytical reagents, phosphor matrix and photoconductor material. It is also used in dyes and paints, pigments and glass manufacturing.

Zinc sulfuride is easy to dissolve and not agglomerate. It is also neutral in colour and has good optical properties. It is commonly used as a component in thermosetting plastics.
It is often used to make ceramics due to its good sintering qualities. Studies have shown that monodisperse Zinc Sulfide Powder has a better sintering result than agglomerate Zinc Sulfide. Furthermore, the particle size is affected and can be increased to improve the sintering performance.

Because nano-zinc sulfuride is a photonic materials, it can produce photon hole. Also, the quantum size effect, which causes an energy level change and widening energy gap, enhances its redox capability. It is a photocatalytic semiconductor that excels in this role.

Zinc sulfuride is an infrared-optical material. It has high infrared transmittance, excellent optical and mechanical performance and thermal comprehensive performance within the 8-12ym and 3-5p.m bands. It is an ideal dual-band, infrared observation window that can be used for both aircraft and hood.

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Zinc sulfide This powder is white to off-white, or light yellow in color. It becomes darker as it is seen. Zinc sulfuride is stable in […]

The Applications of Molybdenum Carbide

What is it? Molybdenum Cartbide ? Molybdenum carbide is a transition-metal carbide. It is one of a number of interstitial compound families with metallic properties that are formed by carbon entering into the crystallization of transition metals.
Molybdenum Carbide’s main features
Molybdenum Carbide (Molybdenum Carbide), is a gray hexagonal crystalline. It has high melting points and hardness, excellent thermal and mechanical stability, good corrosion resistance and good durability. The melting point is 2692°C. It is insoluble when mixed with water and lye. It can be slightly soluble in hydrofluoric, sulfuric, and nitric acid.
These are the main catalytic reactions that molybdenum caride uses:
1. Hydrogenation hydrogenolysis reactions
2. Hydrodesulfurization HDS or hydrodenitrogenation HDN;
3. Isomerization reaction
4. Hydrocarbon conversion, synthesis reaction
5. Application in ammonia synthesis.

Molybdenum Carbide Properties
Other Titles	Mo2C powder, dimolybdenum caride, dimolybdenum carbide
No.	12069-89-5
Combination Formula	Mo2C
Molecular Weight	203.89
Appearance	Gray Powder
Melting Point	2690
Boiling Point	N/A
Density	9.18 g/cm3
Solubility of H2O	N/A
Exact Mass	N/A

Molybdenum Mo2C Powder, CAS 12069-89-5

What are the possible uses of Molybdenum carbide
The global consumption structure shows that molybdenum can be considered an ally of iron. Molybdenum is consumed in 80% of Western developed countries. Steel absorbs 30%, 30% and 30% respectively. Drilling tools and cutting instruments account for 10% and 10% respectively. The remaining 20% of molybdenum is consumed in molybdenum chemical, molybdenum-based lubricants, and petroleum refining. In the United States, 75% of the molybdenum used in steel production was quite common in 1998.
Additionally, molybdenum based alloys are becoming more common in electronics, metal processing, aerospace, and other industries.
1. Molybdenum-alloy
The most popular molybdenum alloy, TZM alloy is known for its high strength and extensive properties. The United States uses TZM alloy to make the turbine disc of its engine. It accounts for 15% in total molybdenum. There are 22 grades of molybdenum, including TZM alloys. In my country, molybdenum production was almost 200 tons in the 1990s.
The high mechanical characteristics of TZM or TZC molybdenum alloys are better than pure, molybdenum. They are widely used in high-tech, mold, and other structural parts manufacturing. Since the 20th Century, we have successfully used them to make seamless steel pipes’ hot perforated heads. Powder metallurgy technology’s sintered molybdenum plug reduces the amount of raw material (50% in the as-cast condition) and extends the average service life 1.5 to 2 years.
This seamless tube, made from molybdenum/rhenium alloy (containing 50% Re), is extremely durable and can be used at temperatures close enough to its melting temperature.
The advantages of molybdenum, molybdenum, and molybdenum-alcohol alloys include high strength, excellent electrical and thermal conductivity, low thermal expansion coefficient, and similarity to glass used for electronic tubes. Also, they are easier to process than tungsten. These components are widely used.
2. Steel alloy elements
Molybdenum is an allies to steel. It can be combined with nickel and chrome as alloying elements to reduce embrittlement which often occurs during heat treatment in alloy steels. American has found a solution to the shortage in tungsten resources by using molybdenum as a substitute for tungsten in its high-speed stainless steel. According to research, molybdenum can have twice the power of tungsten. A steel that contains 18% tungsten could be replaced with steel containing 9 percent molybdenum (which adds chromium, vanadium and chromium simultaneously). This drastically reduces the steel production cost. Molybdenum plays an important role in stainless steel’s corrosion resistance, high strength, and weldability. You can see that molybdenum has a significant role in the iron- and steel industry.
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What is it? Molybdenum Cartbide ? Molybdenum carbide is a transition-metal carbide. It is one of a number of interstitial compound families with metallic properties […]

The Applications of Titanium Boride

What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has high hardness and a melting point of 2980degC. Titanium diboride can withstand 1000°C of oxygen and is stable in HCl or HF acids. Titanium diboride can be used to prepare ceramic composite products. Because it is resistant to corrosion of molten steel, titanium diboride can be used for the production of electrolytic cell electrodes as well as molten metallic crucibles.
The main features and benefits of Titanium Boride
Titanium boride, TiB ₂ It is the most stable of all boron compounds and titanium. It is of the C32 type and is bound using valence bond. It is a metallicloid compound in the hexagonal system. Its structural parameters are: a = 0.3028nm, and C = 0.3228nm. The crystal structure is made up of the boron atomic and titanium atomic plans. In this structure, B is combined with three others by covalent bonds. An extra electron forms an enormous p bond. This graphite-like TiB atomic layered structure, and Ti outer electrons, determine the high electrical conductivity as well as metallic luster. ₂ This material has high hardness and brilliance because of the Ti-B bonds between the boron plane and the titan atomic plane.

Titanium Boride Properties
Other Titles	TiB2, TiB2 powder, titanium boride powder
No.	12045-63-5
Combination Formula	TiB2
Molecular Weight	69.489
Appearance	Gray Powder
Melting Point	2980 degC
Boiling Point	N/A
Density	4.52 g/cm3
Solubility of H2O	N/A
Thermal Expansion Code	8.1×10-6m/m.k
Thermal Conductivity	25J/m.s.k
Electrical Resistivity	14.4mO.cm
Exact	69.96656 D

Titanium Diboride TTB2 Powder CAS 12456-43-5

Titanium Boride’s applications
1. Conductive ceramic material. It is one of the most important raw materials for vacuum coating conductive boat.
2. Use ceramic cutting tools and molds. It can make finishing tools, extrusion, wire drawing, sealing, and other elements.
3. Composite ceramic materials. It can be used in multi-component materials to create composite materials using TiC, TiN and SiC. These parts can then be made into high-temperature-resistant parts and functional pieces such as engine parts, high temperature crucibles and engine parts. It is also an excellent material to make armor protection materials.
4. Aluminum electrolytic cells cathode coating material. The good wettability of TiB2 and molten steel makes it possible to use TiB2 as the aluminum electrolytic’s cathode material. This will reduce power consumption and increase the battery life.
5. It can be used to make PTC heating ceramic material as well as flexible PTC materials. These materials have the following attributes: safety, power conservation, reliability, ease of processing and moldability. It is an upgraded high-tech product from various electric heating material.
6. Good strengthening agent for metals like Al, Fe, Cu.
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What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has high hardness and a […]

The Applications of Zirconium Diboride Powder

Overview of Zirconium Diboride Pulver
Zirconium diboride (ZrB2) This is a type of high covalent ceramic material with hexagonal crystal structures. It is an ultrahigh-temperature ceramic (UHTC) that has a melting temperature of 3246degC. It is a very low density at 6.09 g/cm3 (though it may have a higher density due to hafnium inclusions) and has excellent high-temperature resistance, making it suitable for high-temperature aerospace uses such as rocket propulsion or hypersonic flight. It is an uncommon ceramic that exhibits high thermal conductivity and electrical conductivity.
Zirconium boride is a gray-colored crystal found in nature. Zirconium biboride is composed of three components: zirconium boreide, zirconium diboride and zirconium tribromide. Only zirconium tribromide is stable across a wide temperature range. The industrial production uses a lot of zirconium boride. Zirconium dioxide is a hexagonal or gray crystal, powder, or crystal with a melting temperature of 3040. Zirconium dioxide is highly resistant to high temperatures. It also has high strength at high and normal temperatures. High resistance to high temperatures, good shock resistance and low resistance to oxidation. With metallic luster. It has a metallic appearance. It has a slightly lower resistance than zirconium. After heating, the material can be stable at all temperatures. It can be sintered at lower temperatures, despite having a high melting point.

Zirconium Diboride ZrB2 Powder CAS 12045-64-6

What are the applications of Zirconium Diboride Powder
As science and technology advances rapidly, supersonic aircraft, such as long-range rockets, long-range missiles and spaceships, are becoming more efficient and safer. The aircraft friction with the atmosphere generates a lot of heat. First, improve the high-temperature resistance for aircraft materials including refractory materials, carbides and carbon-carbon material, as well as borides. Zirconium-diboride ceramics are used widely in many fields due to their high melting point and high hardness.
Zirconium Diboride is a strategic material that has high hardness and high thermal conductivity. It also has good oxidation resistance, corrosion resistance, and oxidation resistance. It is used mostly in thermal protection systems and high-temperature electrodes.
Zirconium Diboride can be used in aerospace as a high temperature resistant material. This material is particularly well-suited for the surface and construction of rolling bearing balls.
Zirconium boride is an ideal candidate material to make thin-film electronic components for sensors, actuators, and microsystems operating at high temperatures. This is due to its metal-like conductivity as well as melting temperature of 325°C.
Zirconium boride is used in special ceramics refractories industries, nuclear industry, aerospace and military industries. Zirconium boride can also be used to coat smooth solid materials and rolling balls.
Carbon fiber reinforced zirconium boride composite with high density is available, while silicon carbide-reinforced Zirconium boride composite can be brittle and subject to catastrophic damage.
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Overview of Zirconium Diboride Pulver Zirconium diboride (ZrB2) This is a type of high covalent ceramic material with hexagonal crystal structures. It is an ultrahigh-temperature […]

Properties and Applications of Ti6Al4V TC4 Powder

Introduction to Ti6Al4V TC4 Powder Material for the TC4 titanium alloy Also known as Ti-6Al-4V – titanium alloy It is a member of the (a+b), type titanium alloy. It is characterized by good mechanical properties, high stability, good toughness and plasticity, as well as high-temperature deformation performance. Hot pressure processing, quenching and ageing can make it more robust. Heat treatment can increase the strength by about 50% to 100% over annealing. It is strong at high temperatures and can operate at 400-500 degrees for a long period of time.
TC4 has excellent low-temperature performance. It is still strong below -196 so it can be used to make low-temperature highpressure vessels like liquid hydrogen fuel tanks for missiles and rockets.

Physical properties of Ti6Al4V Powder, TC4 powder
Material for the TC4 titanium alloy It has lightweight, excellent mechanical and corrosion resistance properties as well as biocompatibility. It has low thermal conductivity, and is not magnetic.
Titanium-based metal It is a new type or metal whose properties are affected by other elements, such as carbon, nitrogen, hydrogen and oxygen. It generally has:
1, High strength . Titanium has a density of 4.51g per cubic centimeter. This is less than half the steel’s. The density of pure Titanium is comparable to ordinary steel. Some high-strength, titanium alloys have a greater strength than alloy structural steel. This means that titanium alloy’s specific strength (strength/density), is significantly higher than those of other metallic structural metals.
2, High thermal strength . The titanium alloy can maintain its required strength at medium temperature and can operate at 450500 for a prolonged time.
3, Excellent resistance to corrosion . Titanium alloy can be used in humid conditions and seawater. Its corrosion resistance is superior to stainless steel pitting corrosion, acid corrosion, stress corrosion especially strong Alkali, chloride and chlorine organic matter.
4, good low-temperature performance . Titanium alloys are capable of maintaining their mechanical properties at ultra-low and low temperatures. TA7 is a high-performance titanium alloy with low gaps and good low-temperature performance. It can also maintain some plasticity below -253. Also, titanium alloy can be used as a low-temperature structural material.
5, Chemical activity high . Titanium exhibits high chemical activity. It can be used to react with oxygen and nitrogen as well as hydrogen, CO, CO2, CO2, water vapour, ammonia and other elements in the atmosphere. If the carbon content in titanium is higher than 0.2%, hard TiC forms in titanium. At high temperatures, a hard TiN is formed. Titanium can absorb oxygen and form hardening layers if its carbon content is greater than 600. High temperatures can cause a hardening layer to form. This is due to an increase in hydrogen. Inhalation can make the surface hard brittle to a depth of 0.1-0.15mm. The hard brittle can also reach 20%-30%. It has a strong chemical affinity and is easily adhered to the friction surfaces.
6, Thermal conductivity small elasticity . The thermal conductivity in titanium is 1/4 of nickel, 1/5th of iron, and 1/14th of aluminum. Different titanium alloys have a different thermal conductivity at around 50%. The elastic modulus is half of that of steel. However, titanium has poor stiffness. It is not suitable to be used in thin-walled or slender parts.

Ti6Al4V Powder Properties
Other Names	Ti6Al4V powder, TC4 powder
CAS No.	N/A
Formula compound	TA0,TA1,TC4,TC4 ELI,TC11,TC17,TC18,TC21,TA7,TA12,TA15,TA17,TA19, Ti40,Ti60,TiAl(Ti36Al,Ti48Al2Cr2Nb)
Molecular Weight	N/A
Appearance	grey powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility of H2O	N/A
Exact Mass	N/A

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Applications of Ti6Al4V TC4 powder
Ti6Al4V has many uses in high-performance engineering, including aerospace, automotive, medical device manufacturing, and other areas.
Aerospace: Components for jet engines
Manufacturing: Industrial turbines
Car: muffler
Medical: implants, artificial bones
In the petrochemical sector: The TC4 Titanium rods are inert and extremely resistant to corrosion. The electrolyte for electrolytic Mn02 is a neutral MnSO4 solution. Therefore, the electrode must be resistant to sulfuric corrosion. Telegraph machines made of graphite and lead alloy have a bad effect. The anode becomes semi-permanent after switching to titanium.
The rods of TC4 titanium alloy are resistant to almost all organic acids, organic media and except formic and oxalic acids. Additionally to methanol resistance, titanium is also resistant to the corrosion of organic alcohols, aldehydes and ketones.
Acetaldehyde, for example, is the main ingredient in acetic acids. The corrosion problems of stainless steel equipment are caused by acetic, acetaldehyde and chloride. Titanium material is used to fix this problem in acetic Acid production. For example, acetone can be made from propylene or can be produced using titanium production facilities. Japan built a plant capable of producing 30,000 tons per year of acetone. It also used 40 tons of Titanium.
TC4 Titan rods are also resistant to wet H2S and wet SO4 gas.
In the oil refining business, equipment is frequently corroded by H2S or NH8, sulfide or chloride. However, titanium equipment can resolve this problem. Titanium is used primarily in distillation towers and condensers. Titanium is ideal for ammonia and/or urea production because it resists corrosion.

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Introduction to Ti6Al4V TC4 Powder Material for the TC4 titanium alloy Also known as Ti-6Al-4V – titanium alloy It is a member of the (a+b), […]

The Applications of Stainless Steel 316L Powder

Overview of Stainless Steel 316L Powder
316 stainlesssteel 316L contains more carbon than 316L. This is easy to remember as L stands for “low”. 316L is almost identical in every way to 316L, even though it contains less carbon. Both are affordable and durable.
These alloys are not only chromium or nickel-based, but also contain molybdenum which makes them even more resistant to corrosion. 317L offers even greater corrosion resistance, with a molybdenum percentage of 3 to 4%, compared to the 2 to 3.3% in 316L.
Iron-base alloys that contain enough CHROMIUM to form a solid passive film on the surface.
10.5% is the qualifying Cr concentration to make an alloy Stainless Steel.
316L stainless-steel is extremely resistant to corrosion. It has high toughness, good ductility, and moderate strength. The metal is stain-proof and corrosion-resistant as long the invisible film, also known as passive layer, remains intact. Send an inquiry for the most current price if 3D Printing Stainless Steel SS316L Pulp in Bulk.

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What are the applications of Stainless Steel 316L Stainless Steel Powder?
Like aluminum and titanium stainless steel, it can be used 3D printed complex designs that are otherwise impossible. Due to its strength, stainless can also be used to produce large objects. 3D printing technology will allow stainless steel to be used for even more purposes.
3D-printed stainless metals are just like traditional stainless. They can be used in a variety of applications, including:
Jewelry.
Tools.
Construction applications
Caps for dental work
Metal implants
Industrial applications – Designing functional components
Decorative models, such as keys, medals, and statues.
For military applications.
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Overview of Stainless Steel 316L Powder 316 stainlesssteel 316L contains more carbon than 316L. This is easy to remember as L stands for “low”. 316L […]

Nano Diamond Powder Applications In Various Fields

Nano diamond It was first developed 30 years ago. However, its applications were limited to polishing agent, polycrystalline and other abrasives. The use of nano diamond powder in lubricating oil has increased as people have a better understanding of the properties. The applications of nano diamond powder in lubricating oil, medicine, metal coating, magnetic record system, medicine, and many other fields are still being explored.

Traditional use areas for nano diamond powder:

1. Nano-diamonds, and metal composite coats Plated parts have a 1 to 9-time increase in service life. The coating thickness can be reduced up to 2x. Electroplating is done with standard electroplating equipment.
The average percentage of diamonds found in the metal coat is between 0.3 and 0.5% by weight. Diamond consumption is 0.2g/1 carat/m2 when the coating’s thickness is 1 micron.

2. Nano diamond polishing liquid
It is widely used for semiconductor silicon wafer polishing.

The use of nano diamond powder in new development fields

1. A nano-diamond component is used as a lubricating and cooling oil.
Use of nano diamond in lubricating oils, greases, and coolants is mainly for the machine industry, metal processing. Nano diamond can increase the life of your engine and transmission, and help you save fuel oil.

2. Nano diamond-polymer composite
Use nano-diamond polymer compounds in aviation, automobiles. tractors. shipbuilding. Medicine, chemicals. Petrochemicals. Globe valves. Protective layers. Wear-resistant coatings.

3. Sintered body
The nano-diamonds can be mixed with transition metals in order to make high-strength and very low-porosity diamond-sintered bodies. This can be used for processing soft or brittle materials, with very low surface roughness.

4. Magnetic recording system
You can also use nano-diamonds in magnetic recording devices such as magnetic tapes, magnet disks, and other magnetic media as wear-resistant modifiers or additives. Nano-diamonds can be used to reduce ferromagnetic materials particles, improve recording density, and decrease abrasive wear as well as the friction coefficient.

5. Add to the intermetallic compounds
Intermetallic compounds of copper, tin and zinc containing nano diamonds are suitable for use as friction parts under very difficult working conditions. This is because plastic and liquid lubricating material are often extruded.

6. Medicine
You can also use nano diamond in medicine to treat tumors, gastrointestinal disease, and skin disorders. It is safe, non-toxic and non-carcinogenic. Nano diamond can be used as a super-active adsorbent or bioactive locator to enhance drug efficacy.

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Nano diamond It was first developed 30 years ago. However, its applications were limited to polishing agent, polycrystalline and other abrasives. The use of nano […]

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