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Potassium Oleate CAS 143-18-0

Product name: Potassium Oleate

CAS NO. 143-18-0

About Potassium Oleate:
Potassium oleate, another name is Potassium cis-9-octadecenoate. The chemical formula is C18H33KO2. Potassium oleate is a brown solid or a transparent amber liquid. It is fatty acid potassium found in natural soaps.

Potassium Oleate is a liquid potassium soap solution in water. Potassium Oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair permanents. Emulsifiers act like surfactants and reduce the surface tension of a liquid.

Potassium Oleate is a natural constituent of vegetable oils like sunflower oil. It is used in soapmaking to make vegetable glycerin soaps. In its pure form, it can be an irritant, however, in soap making it is reduced down and is approved as food safe when it is used as a binding ingredient.

High-purity potassium oleate is a powdery solid, which will bring great convenience in storage, packaging and transportation, or in the amount of use during use. However, the current refining and purification of solid potassium oleate often require the use of low temperature and decompression to remove water. This method has a long production cycle, high energy consumption, high cost, and difficult preparation. Therefore, it is very necessary to research and develop the solid potassium oleate preparation process. Tungstenmolybdenummetals is a trusted global Potassium Oleate supplier. Feel free to send an inquiry about the latest price of Potassium Oleate at any time.

If you want to know potassium oleate price and buy potassium oleate, please send inquiry to sales1@rboschco.com

How is Potassium Oleate produced?
A preparation method of solid powdered potassium oleate, the specific steps are:
1) The paste oleic acid and potassium hydroxide are reacted in the water phase to prepare a potassium oleate solution with a mass content of 10%-20%, and the mass content is 40% by the concentration at 70-80℃ -60% Potassium oleate in flowable viscous form;

2) After mixing the urea with the alcohol solution, stir at 70-90°C, and form a hot saturated urea-alcohol solution after the area is completely dissolved;

3) Add the viscous potassium oleate to the urea-alcohol solution under the heat preservation state, stir thoroughly to form a uniform and transparent solution, keep stirring, cool the solution to -5-0℃, keep the low temperature for 1-3h to make the potassium oleate solid precipitate, Filter the precipitated hard potassium oleate powder (filter with gauze), and dry the solid with dry cold air to obtain the finished solid powdered potassium oleate.

Application of Potassium Oleate:

Potassium oleate is a potassium catalyst and a trimerization catalyst for polyurethane rigid polyisocyanurate. potassium oleate uses in soap, means potassium oleate soap. It is widely used in polyurethane insulation board PIR foam system. In addition, potassium oleate is also widely used in rubber emulsifiers, foaming agents, release agents, detergents, lubricants, fiber softeners and surfactants. Potassium Oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair permanents. Emulsifiers act like surfactants and reduce the surface tension of a liquid. Potassium Oleate prevents the ingredients in these products from separating into separate chemicals.

In addition, potassium oleate can also

Preparation of an antifungal agent for paint;

Preparation of multifunctional microemulsified gasoline and Oil combustion accelerator;

Preparation of anionic viscoelastic surfactant-based gel.

Technical Data of Potassium Oleate:

Testing item	Testing standard
appearance	white or light yellow powder
acid value	195-204
iodine value	80-100
free alkali, %	0.1～1.0
loss on drying, %	≤3.0
content(in dry), %	≥99.0
water solubility test , 10%	qualified
ethyl alcohol solubility test , 5%	qualified

Packing & Shipping of Potassium Oleate:
We have many different kinds of packing which depends on the potassium oleate quantity.
Potassium oleate packing: 25kg/bag, or as your request.
Potassium oleate shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.
Potassium Oleate CAS 143-18-0插图

Potassium Oleate Properties
Other Names	Oleic acid potassium salt
CAS No.	143-18-0
Compound Formula	C₁₈H₃₃KO₂
Molecular Weight	320.55
Appearance	White Powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	320.211762
Monoisotopic Mass	320.211762


Potassium Oleate Health & Safety Information
Signal Word	Warning
Hazard Statements	H315-H319-H335-H400
Hazard Codes	Xi
Risk Codes	36/37/38
Safety Statements	26
Transport Information	UN 3077 9 / PGIII

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Product name: Potassium OleateCAS NO. 143-18-0About Potassium Oleate:Potassium oleate, another name is Potassium cis-9-octadecenoate. The chemical formula is C18H33KO2. Potassium oleate is a brown solid or a […]

Hexagonal Boron Nitride is 10 Times Stronger Than Graphene

Hexagonalboron nitride , is a two-dimensional layered broadband gap insulating material. It has good heat resistance, chemical stability and dielectric property. It is used extensively in electronic devices.
Hexagonalboron nitride has structural similarities to graphene. This is a hexagonal planar lattice containing atoms that are interconnected in hexagons. There is one difference: graphene has all carbon atoms. H-BN contains only three nitrogen and three of boron atoms per hexagon.

The strongest carbon-carbon bonds make graphene stronger than HBN. Both the strength and elastic modulus are comparable, with hBN slightly lower: graphene is stronger than HBN at 130GPa, while HBN has an elastic modulus around 1.0TPa. HBN’s strength and modulus are respectively 100GPa, 0.8 TPA and 0.9 TPA.
Graphene’s excellent mechanical properties are offset by its low crack resistance. This makes it brittle.

British engineer Griffiths published in 1921 a theoretical study on fracture mechanics. This included a description of the failures of brittle materials as well as the relationship between size of cracks and the forces required to make them grow. Engineers and scientists have been using this theory for many years to predict the strength of materials.
Jun Lou, Rice University’s Professor, and his research team, found that graphene has a high degree of fracture toughness. The study was consistent with Griffith’s theory about fracture mechanics. Graphene cracks will propagate when its stress exceeds the force it holds together.
Due to its structural similarities to graphene H-bn could also make it vulnerable. But this is incorrect.

H-BN was found to be 10x more ductile that graphene, according to scientists.
The cracking resistance of H-BN, which is brittle and ductile, was determined by a team consisting of Prof. Jun Lou at Rice University and Prof. Hua Yian Gao from Nanyang Technological University. Griffith’s fracture theory is not supported by this finding. Such anomalies were never seen in other two-dimensional materials. Nature published the related research findings under “Intrinsic roughening, stable crack propagation and Hexagonal Boron nuitride”.

What’s the secret to H-BN’s extraordinary toughness
They applied stress to H-BN samples using transmission electron microscopes and scanning electron microscopes. This allowed them to understand how cracks formed. The mystery was solved after over 1,000 hours of experimental work and the subsequent theoretical analysis.

H-Bn graphene is structurally identical to graphene, however boron atoms and nitrogen atoms differ. HBN therefore has an intrinsic asymmetric arrangement for hexagonal lattice, not like graphene. The cracks in graphene tend to cut through the symmetrical hexagonal structure top to bottom and open the bond as a zipper. H-BN has a hexagonal structure that is slightly different due to the stress difference between boron & nitrogen. Because of this, cracks can bifurcate and form branches.
The crack that splits means the crack is turning. To make the crack harder to propagate, this steering crack needs additional energy. H-Bn is more elastic than graphene.

The excellent heat resistance, chemical stability and dielectric properties of H-BN have made it an essential material in two-dimensional electronic, as well as other 2-bit devices. This is not only for its support but also because it acts as an insulating layer to electronic components. hBN is a tough material that can be used to make flexible electronics. This makes it a good choice and important in the development of 2D flexible materials suitable for two-dimensional electronic applications.
Future uses for hBN include electronic textiles that are flexible and electronic skin, implantable electronics, and electronic skin.

Boron Nitride BN Powder Price
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
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Hexagonalboron nitride , is a two-dimensional layered broadband gap insulating material. It has good heat resistance, chemical stability and dielectric property. It is used extensively […]

What is Boron Carbide Powder B4C?

Boron Carbide Powder Boron carbide, Is hard, shiny and black. While its hardness may be lower than the industrial diamonds, it is more durable than silicon carbide. Boron carbide is more durable than many pottery. The cross-section of the thermal neutron capture cross-section is large, as well as its chemical resistance. It is resistant to hot hydrogen fluoride, nitric acid and other aggressive chemicals. It dissolves in molten alkali, and is insoluble in acid. D204 is the relative density. It ranges from 2.508 to 2.512. The melting point for chocolate is 2350. The boiling point is 3500

Boron Carbide Pulver’s Physical and Chemical Properties
Boron carbide The chemical potential is high and does not react to acid or alkali solutions. It is capable of semiconductor conductivity, wear resistance, neutron absorption and wear-resistance. It is one the most stable acids. It can be found in concentrated and dilute alkaline solutions as well. Boron carbonide is stable at temperatures below 800°C in an air environment.
Some transition metals can coexist with their carbides to achieve special stability. To form metal borides, the transition metals iv to v in the periodic tables react strongly with boron crate powder at 1000 1100. It has been observed that at higher temperatures, boron carbide reacts with transition metals oxides or nitride to produce corresponding boron nutride and borides. This is primarily rare earth and alkaline metal hexaborides.
It has a Mohs Hardness of approximately 9.5, and it is third in hardness after diamond and cubic-boron nitride. This substance is also harder than silicon carbide.
Because of the way it is prepared, boron carbonide forms carbon defects easily. These changes can be made without changing the crystal structure. This often causes the degrading of the material’s physical and chemical properties. This type of defect is difficult to fix by powder diffraction. It often requires chemical titration as well as an energy loss spectrum.

Boron Carbide Powder Properties
Additional Names	B4C, Black Diamond, Boron Caride Powder
CAS No.	12069-32-8
Formula compound	B4C
Molecular Weight	55.26
Appearance	gray black powder
Melting Point	2763degC
Boiling Point	3500degC
Density	2.52g/cm3
Solubility in water	Unsolvable
Get the exact Mass	N/A

Boron Carbide B4C Powder Cas 12069-32-8

Boron Carbide Powder
Boron carbonide is ideal for processing hard materials such as ceramic wear parts like wear plate, pumps parts and bearings. Specifically,
1. Useful for controlling nuclear fission. Boron carbide absorbs large amounts of neutrons in a non-radioactive manner, which makes it an ideal neutron absorber for nuclear power stations, where neutron absorbing devices control the rate at which nuclear fission occurs.
2. As abrasive materials. Boron carbide has long been used as an abrasive coarse material. Boron carbide is hard to form into artifacts due to its high melting point. But, by melting it at high temperatures it can be made into simpler shapes. This is useful for the grinding, drilling, polishing, and sandblasting of precious stones and alloys.
3. To coat coatings. Boron carbide can be used to coat warships or helicopters with ceramics. It’s lightweight and resists armor-piercing bullets.
4. It is used to make the nozzle. For making gun nozzles in the arms sector. Boron carbide can be extremely hard, wear-resistant and does not react to acid or alkali. Due to its wear resistance and hardness the boron nitride sandblasting tool will eventually replace other materials such as silicon nitride or carbide/tungsten, alumina and zirconia.
5. Others. Boron carbide may also be used for the production of metal borides as well as the melting of sodium, boron alloys and special welding.

Boron Carbide Powder Main Source
Technology Co. Ltd. (), is a trusted supplier and manufacturer of chemical materials worldwide. It has over 12-years experience providing high-quality chemicals, Nanomaterials, such as boron carbide powder/nitride/graphite powder, zinc sulfuride, calcium tritride, and 3D printing powder.
Send us an enquiry if you’re looking for a high-quality boron carbide powder.

Boron Carbide Powder Boron carbide, Is hard, shiny and black. While its hardness may be lower than the industrial diamonds, it is more durable than […]

Sodium octyl decyl alcohol sulphate

About Sodium octyl decyl alcohol sulphate:
Sodium octyl decyl alcohol sulphate is easily soluble in water, has excellent decontamination, emulsification, foaming properties, and hard water resistance.
Tungstenmolybdenummetals is a trusted global Sodium octyl decyl alcohol sulphate. Feel free to send an inquiry to get the latest price of Sodium octyl decyl alcohol sulphate if you would like to buy Sodium octyl decyl alcohol sulphate in bulk.

Product Performance of Sodium octyl decyl alcohol sulphate:
Sodium octyl decyl alcohol sulphate has excellent decontamination, emulsification, foaming properties, hard water resistance and penetration properties.

Technical Parameter of Sodium octyl decyl alcohol sulphate:

Product Name	Short Name	Purity	PH	Odor	Appearance
Sodium octyl decyl alcohol sulphate	N/A	35%	6.5-8.5	Characteristic odor	Light yellow to yellow transparent liquid

Applications of Sodium octyl decyl alcohol sulphate:
Sodium octyl decyl alcohol sulphate is widely used in industrial cleaning agents, foaming agents, fire-fighting foaming agents and other products. especially in the electroplating and washing liquid industries.

Packing & Shipping of Sodium octyl decyl alcohol sulphate:
We have many different kinds of packing which depend on Sodium octyl decyl alcohol sulphate quantity.
Sodium octyl decyl alcohol sulphate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
Sodium octyl decyl alcohol sulphate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Sodium octyl decyl alcohol sulphate插图

Sodium Octyl Decyl Alcohol Sulphate Properties
Other Names	N/A
CAS No.	N/A
Compound Formula	ROSO₃Na
Molecular Weight	N/A
Appearance	Light yellow to yellow transparent liquid
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	N/A
Sodium Octyl Decyl Alcohol Sulphate Health & Safety Information
Signal Word	N/A
Hazard Statements	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Statements	N/A
Transport Information	N/A

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About Sodium octyl decyl alcohol sulphate:Sodium octyl decyl alcohol sulphate is easily soluble in water, has excellent decontamination, emulsification, foaming properties, and hard water resistance.Tungstenmolybdenummetals […]

What is Silicon Boride Powder?

Introduction to Silicon Boride Powder Silicon Boride This lightweight ceramic compound is also known as boron silicide. It is composed of silicon andboron. There are three types of silicon triboride.
Silicon hexaboride is also known as hexaboron Silicide. It’s a glossy, black-gray powder. SiB6 is its chemical formula. The molecular weight of SiB6 is 92.95. The relative density of the material is 2.47 g/cm3. The melting point is 2200. It is roughly the same hardness as ruby or diamond. Silicon hexaboride is capable of conducting electricity. It is insoluble when water is used. It can be oxidized when heated in chlorine or water vapor.

Silicon Boride Powder’s Physicochemical Property
The SiB6 crystal structure includes interconnected icosahedrons, polyhedrons that have 20 faces and icosahedrons that have 26 faces. It also contains isolated silicon and bore atoms.
It is insoluble when it comes into contact with water, and resistant to oxidation and thermal shock. It has high strength, stability, and resistance to thermal shock. It is more efficient than boron caride in grinding.
Surface oxidation is caused by SiB6 being heated in oxygen or air. SiB6 can then be eroded at high temperatures using boiling sulfuric and fluorine, chlorin, and bromine. Borides can be used as electrical conductors. Hexamborides are low in thermal expansion and have high thermal neutron cross sections.

Silicon Boride Powder Properties
Other Names	SiB6 Powder, silicon hexaboride
CAS No.	12008-29-6
Formula compound	SiB6
Molecular Weight	92.95
Appearance	From dark grey to black powder
Melting Point	1950
Boiling Point	N/A
Density	2.43g/cm3
Solubility of H2O	Insoluble
Exact Mass	93.04

Silicon Boride SiB6 Powder CAS 12008-29-6

Preparation of Silicon Boride Pulver
The mixture of silicon, boron, and silicon can easily be heated. Any excess silicon can then be removed with HNO3 and HF. Molten KOH can also be used to decompose the B3Si.

Silicon Boride Powder: Applications
1 Used to grind cemented carbide, standard abrasives, and other uses.
2 are used for engineering ceramic material and sandblasting, as well as manufacturing gas engine blades and special-shaped sintering parts.
3. It is used as an oxidant in refractories.

Main supplier of Silicon Boride powder
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemical materials. We have more than 12 years experience in producing super high-quality chemicals.
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Introduction to Silicon Boride Powder Silicon Boride This lightweight ceramic compound is also known as boron silicide. It is composed of silicon andboron. There are […]

Polyoxyethylene sorbitan monolauric acid ester CAS 9005-64-5

About Polyoxyethylene sorbitan monolauric acid ester:
Polyoxyeperethylene sorbitan monolauric acid ester is prepared by reaction of sorbitan monolauric acid ester with ethylene oxide. Polyoxyeperethylene sorbitan monolauric acid ester is formed by the condensation of sorbitan monolauric acid ester, sorbitan monolauric acid ester and laurate with 20 moles of ethylene oxide per mole under alkaline conditions.
Tungstenmolybdenummetals is a trusted global Polyoxyethylene sorbitan monolauric acid ester. Feel free to send an inquiry to get the latest price of Polyoxyethylene sorbitan monolauric acid ester. If you would like to buy Polyoxyethylene sorbitan monolauric acid ester in bulk.

Product Performance of Polyoxyethylene sorbitan monolauric acid ester:

Polyoxyeperethylene sorbitan monolauric acid ester contains many hydrophilic groups, miscible with water, ethanol, methanol and ethyl acetate, insoluble in liquid paraffins, non-volatile oils and light petroleum. One part of this product is soluble in 130 parts cottonseed oil and 200 parts toluene, 5% aqueous pH5 ~ 7. Dissolved in corn oil, dioxane, fibrin, carbon tetrachloride, methanol, ethanol, aniline 3 high concentration dissolved in mineral oil, cotton seed oil, ethyl acetate, ethylene glycol.

Technical Parameter of Polyoxyethylene sorbitan monolauric acid ester:

Product Name	Water-soluble	Density	Appearance
Polyoxyethylene sorbitan monolauric acid ester	100g/L	1.106	Amber viscous liquid

Application of Polyoxyethylene sorbitan monolauric acid este:

Food grade Polyoxyethylene sorbitan monolauric acid ester is used as food emulsifier
Industrial grade Polyoxyethylene sorbitan monolauric acid ester is used as emulsifier, solvent, penetrant and dispersant in cosmetics and household chemicals, and as a wax inhibitor in oil Wells, which can remove wax formation in oil Wells. As a viscosity reducer, it can reduce the flow viscosity of crude oil and improve oil well production and transportation capacity. Because of its anti-rust and lubricity, this product can be used to prepare anti-rust lubricating oil and de-rust grease trace oil. Polyoxyethylene sorbitan monolauric acid ester is used as a control agent for the fluidity of carrier and dispersant to prevent precipitation in the adhesives, coatings, inks and pigment industries, and in the textile industry due to its good emulsifying properties to fats and fatty oils.

Packing & Shipping of Polyoxyethylene sorbitan monolauric acid ester:
We have many different kinds of packing which depend on Polyoxyethylene sorbitan monolauric acid ester quantity.
Polyoxyethylene sorbitan monolauric acid ester packing: Polyoxyethylene sorbitan monolauric acid ester kg/bottle, 25kg/barrel, or 200kg/ barrel.
Polyoxyethylene sorbitan monolauric acid ester shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Polyoxyethylene sorbitan monolauric acid ester CAS 9005-64-5插图

Polyoxyethylene sorbitan monolauric acid ester Properties
Other Names	N/A
CAS No.	9005-64-5
Compound Formula	C₁₈H₃₄O₆ (C₂H₄O)₂₀
Molecular Weight	N/A
Appearance	Amber viscous liquid
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	N/A
Polyoxyethylene sorbitan monolauric acid esterHealth& Safety Information
Signal Word	N/A
Hazard Statements	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Statements	N/A
Transport Information	N/A

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About Polyoxyethylene sorbitan monolauric acid ester:Polyoxyeperethylene sorbitan monolauric acid ester is prepared by reaction of sorbitan monolauric acid ester with ethylene oxide. Polyoxyeperethylene sorbitan monolauric […]

What is Hafnium Diboride Powder?

What is it? Hafnium Diboride Powder ? Hafnium boreide is a gray-colored crystal with metallic luster. It has excellent conductivity and strong chemical properties. It is indistinguishable from all other chemical reagents at room temperature, with the exception of hydrofluoric acids. It can be prepared by heating hafnium oxide, boron carbonide, and carbon powder. It is used to make superalloys.
The key features of Hafnium Diboride Powder
Hafnium Diboride has a high melting point, high hardness and excellent electrical and thermal conductivity. It also exhibits good neutron absorption properties. It can be used to make electrode materials, super-hard materials and neutron absorption substances, as well as ultra-high-temperature materials.

Hafnium Diboride Properties
Other Titles	hafnium boride, HfB2 powder
No.	12007-23-7
Combination Formula	HfB2
Molecular Weight	200.112
Appearance	Black Powder
Melting Point	3250 degC
Boiling Point	N/A
Density	10.5 g/cm3
Solubility of H2O	N/A
Exact	201.965161

Hafnium Diboride HfB2 Powder CAS 12007-23-7

Applications of Hafnium Diboride Pulver
1. Hafnium Diboride in wear-resistant coats Because of its exceptional fire resistance, it can also be used in ultra high temperature composite materials (SiC) with silicon carbide. This material is more resistant to oxidation when it has been combined with silicon carbide.
2. Temperature and pressure determine the resistance to oxidation of hafnium-diboride. A protective oxide scale of hafniumoxide is formed when the temperature is 1500 degrees Celsius and the pressure is 1 atmosphere. HfB2’s oxidation resistance will decrease significantly if it is heated above 1600°C or the pressure drops below one atm. These conditions will cause the boiling temperature for B2O3 (another oxidation product of HfB2) to exceed 1400°C. A protective oxide layer will then form.
3. Because of its strength and thermal characteristics, HfB2 can be used in ultra high-speed reentry vehicle, such as heat shields, for intercontinental ballistic missiles, or aerodynamic fronts. HfB2 forms aerodynamic shapes unlike composite and polymers, and does not ablate during reentry.
4. Hafnium Diboride was also investigated as a possibility for new materials in nuclear reactor control rods.
5. Hafnium-diboride is being investigated as a diffusion barrier for microchips. If the synthesis is correct the barrier thickness could be less than 7 nanometers. The supplier Hafnium Diboride Powder
Tech Co., Ltd. () is a professional boride powder Over 12 years’ experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
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What is it? Hafnium Diboride Powder ? Hafnium boreide is a gray-colored crystal with metallic luster. It has excellent conductivity and strong chemical properties. It […]

What is Titanium Silicide TiSi2 Powder?

Introduction to Titanium Silicide TiSi2 Pulver Titanium disilicide TiSi2 (the chemical formula) is an inorganic compound made of titanium and silica. Titanium silicide can be described as a dark gray square-shaped crystal. It can also be powdered and used to make target materials. It is a metal silicide. These raw materials include titanium and silicon metals. It exhibits high conductivity and high temperature stability.

Titanium Silicide TiSi2 Pulp
Among the many metal silicides, such as TiSi2, NiSi2, CoSi2, WSi2, TaSi2, MoSi2, MoSi2, MoSi2, MoSi2, MoSi2, MoSi2, MoSi2, MoSI2, and CoSi2, titanium silicide has excellent properties. These include high electrical conductivity. high selectivity. good process adaptability.

Titanium Silicide TiSi2 Pulp Properties
Other Names	TiSi2 powder, titanium disilicide
CAS No.	12039-83-7
Formula compound	TiSi2
Molecular Weight	104.04
Appearance	black powder
Melting Point	1470 degC
Boiling Point	N/A
Density	4.02g/cm3
Solubility of H2O	N/A
Exact Mass	103.9018

Titanium Silicide TISi2 Powder CAS 12205-83-7

Related Elements
What is Si?
Silicon (atomic symbol Si; atomic number fourteen) is an element in the Period 3 unit P with an atomic mass 28.085. Silicium, which is 25.7 per cent of the earth’s crust, is the second-most abundant element after oxygen. These metals rarely occur in their pure crystal form. They are typically made from an iron/silicon alloy called ferrosilicon. Element Silicon, also known as silicon dioxide, is the main ingredient of glass. This is one the most cost-effective materials. It has excellent mechanical and optical properties, as well as thermal and electrical properties. You can dope ultra-pure silica with boron (or gallium), phosphorus or arsenic to make silicon. This is used in solar cells, transistors and other solid state devices that are widely used in electronics.

What is Ti?
Titanium, also known as atomic symbol Ti and atomic number 22, is an element in the group D of the 4th periodic with an atomic weight of 47.867. The basic form of titanium is silver-gray with a metallic appearance. Titanium is chemically similar to zirconium. This metal has the exact same number of electrons as titanium and is part of the same periodic table group. There are five naturally-occurring isotopes for titanium, 46Ti to 48Ti. The most abundant (73.8%) is 48Ti. Titanium can be found in igneous rocks as well as its sediments.

Production methods for Titanium Silicide TiSi2 Pulver
By reacting titanium hydride or titanium with silicon, you can prepare titanium disilicide.
Ti + Ti 2Si -TiSi2
It can also be ignited using aluminum powder, titanium dioxide, sulfur, and silicon dioxide.

Another option is to react titanium trichloride with silane, diclosilane, and silicon.
TiCl4 + 2SiH4 – TiSi2 + 4HCl + 2H2
TiCl4 + 2SiH2Cl2 + 2H2 – TiS2 + 8HCl
TiCl4 + 3Si – TiSi2 + SiCl4

Titanium Silicide TiSi2 Pulp
In the semiconductor industry, titanium silicide is used. It is grown on silicon and other polysilicon wires with self-aligning Silicide technology. This reduces the thin layer resistance to local transistor connections. It is most commonly used in the microelectronics industry at the C54 stage.
The source, gate, leak contacts and local interconnections of CMOS integrated Circuits are all made from titanium silicide. These applications require that the titanium-silicide phase is low in resistivity (20m o –cm) and doesn’t agglomerate under high-temperature treatment. For electronic applications, the Ti/Si System has two silicide layers: C49-TiSi2 with high resistivity (60-70m o.-cm) at 600-700°C and C54-TiSi2 with low resistivity (15-20m o.-cm), at 700-850°C.

Titanium Silicide TiSi2 Pulver is Main Supplier
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and Nanomaterials. They have over 12 years experience in producing super-high-quality chemicals, such as silicon powder.
High-quality products are what you want titanium silicide TiSi2 powder Please feel free and contact us to send an inquiry. (brad@ihpa.net)

Introduction to Titanium Silicide TiSi2 Pulver Titanium disilicide TiSi2 (the chemical formula) is an inorganic compound made of titanium and silica. Titanium silicide can be […]

The Applications of Nickel Titanium Alloy Powder

Overview Nickel Titanium Alloy Pulp
Nitinol is also known as Nitinol. It is a combination of nickel, titanium and metals. The atomic percentages are almost equal. Different alloys can be named according to their nickel content (such as nickel). Nitinol 55 & Nitinol60. They have shape memory effects and super elasticity at different temperatures.
Nitinol can be used in medical applications as a functional material.
Memorable alloys not only have an exceptional shape memory function but also have outstanding properties like wear resistance and corrosion resistance as well as super elasticity.
Nitinol has two closely related and unique properties: shape memory effect and superelasticity(also known as pseudoelasticity).Shape memory is the ability of Nitinol to deform at a certain temperature,maintain its deformed shape when external force is removed,and then restore its original undeformed shape when heated to above its”transition temperature”.Superelasticity is the ability of a metal to withstand large deformations and immediately restore its undeformed shape after the external load is removed.The deformation of Nitinol is 10 to 30 times that of ordinary metals and can restore its original shape.Whether Nitinol alloy shows shape memory effect or superelasticity depends on whether it is higher than the transition temperature of the specific alloy.Below the transition temperature,it exhibits a shape memory effect.

Nitinol Nickel Titanium NiTi Alloy powder

What are the applications of Nickel Titanium Alloy Powder
It is a highly functional material.
The tensile strength of Nitinol can reach 1000 MPa.In other words,it takes more than 100 dry grams per square millimeter to destroy it.This force is stronger than ordinary steel,and it also has good”memory”performance and corrosion resistance.
Nitinol alloy contains 50%nickel and 50% titanium,that is to say,nickel and titanium are equally divided,each accounting for half.The temperature range of the shape memory can be adjusted by the control component.Generally,the higher the nickel content of Nitinol,the lower the operating temperature.When it contains 55% nickel and 45% titanium,the memory alloy can work at room temperature.
People have used the shape memory properties of shape alloys to make pearl necklaces, bracelets, and bras made of shape alloy wires.
Nitinol is a replacement for traditional actuators such as solenoid valves, servomotors, etc. ), such as Stiquito, a simple hexapod robotic robot.
Fluid thermal valves make use of Nitinol Springs. This material acts both as a temperature sensor, and as an actuator.
The alloy is used in both sports cameras that have auto-focus and mobile phones as an optical image stabilizer.
Pneumatic valves can be fitted with alloys for a more comfortable seat. This has been a industry standard.
The alloy Chevrolet Corvette has a nickel/titanium memory-alloy actuator that replaces an electronic transmission. It opens and closes hatches to release air from the body, making it easier to access.
The main supplier of Nickel Titanium Alloys Powder
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Overview Nickel Titanium Alloy Pulp Nitinol is also known as Nitinol. It is a combination of nickel, titanium and metals. The atomic percentages are almost […]

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Colloidal silver’s medicinal benefits For over a thousand year, silver has been used in antiseptics. This antibiotic is very popular in folk medicine. It can […]

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