High Purity Iron Oxide Fe2O3 Powder CAS 1309-37-1,99.9% |

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Iron oxide is chemically Fe2O3. Powder of a dark or deep red colour. Insoluble in water. Soluble in hydrochloric and sulfuric acids. Purity: 99.5%
Particle size: 150nm or 50nm

About iron oxide Fe2O3 Powder :
Haematite and Ferric oxide are inorganic compounds with the formula Fe2O3. It is the main oxidation of iron. Other forms are Iron oxide (II), or natural magnetite iron (II,III).

Fe dioxide and iron trioxide are inorganic compounds that have the formula Fe2O3. They are one of the main oxides found in magnetite, a mineral. Iron Oxide can be used in suspensions and solutions in biomedicine and agriculture. It has easy separation methods and unique super-magnetic properties. powdered ferrous oxide has the advantage that it is easily modified by adding a variety inorganic and/or organic compounds, such as starch or non-ionic detergents.

iron oxide is an iron oxide compound that has ferromagnetic qualities. If the compound is placed in a field of external magnetism, it becomes magnetic. The magnetic property can be obtained when the size and crystal structure are controlled. The low toxicity of iron oxide fine particle, their magnetic properties, and the ease with which they can be separated in magnetic resonance imaging and medical diagnosis have made them a popular choice. Iron oxide’s reactivity and application on a large scale are important factors. However, iron oxide in micron or nano sizes can spontaneously burn. Iron oxide, as a semiconductor, has a negative resistance to temperature.

If you’re interested in purchasing Iron Oxide Fe2O3 Pulp , please send us an inquiry.

Performance and properties of iron oxide Fe2O3 powder

Iron oxide red powder. Odorless. Insoluble with water, organic acids or organic solvents. Soluble with inorganic acids. Two types are available: a-types (positively magnetic) and diamagnetic g-types. The dry products produced are usually finer than 1mm. Stable in light, air and heat. It is more stable against acid and alkali. Strong coloring power. The relative densities are 5.125.24. The relative density decreases with the lower content. Refractive Index 3.042. Melting point of 1550. Decomposes around 1560.

Technical Parameters for Iron Oxide Fe2O3:

TEST ITEM H130 H190
Fe2O3>=% 96 96
105degC volatile matter <=% 0.9 0.9
Hydrotrope <=% 0.25 0.25
Water-soluble chloride & sulfate=% 0.18 0.18
Residue on 10um mesh sieve 0.45 0.45
Water suspension PH value 5.0-7.0 5.0-7.0
Oil Absorption (ml/100g). 20 20
Colour (as measured by the sample). Micro- Micro-
Tinting strength % 99 99

What is Iron Oxide Fe2O3 Powder produced?
Iron Oxide Fe2O3 is prepared by both dry and wet methods. Wet-processed products are made of fine crystals and soft particles. They are easy to mill, and can be used as pigments. Dry-process products contain large crystals with hard particles. They are used for magnetic materials and polishing.
1. Wet It is a good way to get started.
Then, pass the ferric hydroxide colloidal solutions in the room air to turn them into a reddish brown color. This will be the nucleus for the deposited iron oxide. The crystal nucleus is used as the carrier. Ferrous sulfate is the medium. Pass in the atmosphere. The ferrous-sulfate solution, when in contact with metallic iron at 7585°C, reacts with oxygen to produce iron oxide, which deposits onto the crystal nucleus.
2. Dry method
After nitric acid reacts to iron, ferrous Nitrate is formed. This is dehydrated, dried, ground, and then calcined for 8-10hrs at 600-700degC. It’s then dried, washed, and pulverized. Iron oxide yellow is also a raw material that can be used for red iron after calcination between 600700.

Applications Iron Oxide Fe2O3 Powder :
1. Iron industry
The steel and iron industries use iron(III oxide) as a feedstock. The production of steel, iron and various alloys.
2. Polishing
A fine powder of ferric dioxide is called “jeweler’s red”, “red rouge”, and simply rouge. It was historically used as a cosmetic and to polish metallic jewelry and lenses. It cuts slower than some modern polishes such as cerium (IV) oxide but is still widely used by jewelers for its superior finish. When used to polish gold, rouge leaves a slight stain on the metal, which adds to the final appearance. It is available in powder form, paste form, on cloths for polishing, and as solid bars (with wax or grease as the binder). Many other polishing agents are called rouge, even if they do not contain any iron oxide. Jewelers can remove residual rouge from jewelry using ultrasonic cleaning. “Stropping compounds” can be applied to leather strops to help sharpen knives, straight razors or any other edged instrument.
3. Iron oxide pigments
The pigments are two colors of the iron(III oxide) hydrate at different phases (a = yellow, b= red) that can be obtained.
Iron(III), also known as iron oxide, can be used to make pigments. These include “Pigment Brown 6”, “Pigment Brown 7”, and “Pigment Red 101”. Some of these pigments, like Pigment Brown 6, are approved by the US Food and Drug Administration (FDA) for use in cosmetics. Pigment Red 101 and Pigment Brown 6 are approved for use as cosmetics by the US Food and Drug Administration. As well as titanium oxides, iron oxides can be used in dental composites. Hematite, the main component of Falu Red paint in Sweden, is characteristic.
4. Magnetic recording
Iron(III)oxide was the most popular magnetic particle used for all types of magnetic recording and storage media. These included magnetic disks, which are used to store data. Magnetic tape is also commonly used for recording audio and videos as well as storing data. The cobalt-alloy was used to replace it as a magnetic material in computer disks. This allowed for thinner magnetic films that had a higher storage density.
5. Photocatalysis
Researchers have studied a-Fe2O3 for its potential as a photoanode in solar water oxidation. The short diffusion distance (2-4nm) and rapid recombination of the photo-excited carriers limits its effectiveness. A large overpotential is required to drive this reaction. The research has focused on improving water oxidation performances of Fe2O3 through nanostructuring, functionalization or the use of alternate crystal phases, such as bFe2O3.
6. It is a good idea to use a different language. dicine
Calamine, a lotion used to relieve mild itching, is composed primarily of a combination zinc oxide and iron(III) oxychloride, an active ingredient that acts as antipruritic. Iron(III), which is red, is also responsible for most of the pink colour in the lotion.

Iron Oxide Fe2O3 Storage Condition:

Iron Oxide Fe2O3 should not be exposed air and should be kept in a dry, cool, and sealed environment.

Shipping & Packing of Cerium Oxide Fe2O3:
It comes in double bags that can be vacuumed up and filled with Argon for protection.
Iron Oxide Fe2O3 – powder packaging: 100g, 500g, 1kg per bag, 25kg per barrel, or to your specifications.
Iron Oxide Fe2O3 – powder shipping: could also be shipped by air or express once payment is received.


Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with more than a decade of experience. They provide high-quality nanomaterials such as boride powders, graphite or sulfide particles, 3D printing materials, etc.
Contact us to send an inquiry if you’re looking for high quality Iron oxide powder. (brad@ihpa.net)

Iron Oxide Properties

Alternative Names Fe2O3, micaceous iron dioxide, ferric oxide
CAS Number 1309-37-1
Compound Formula Fe2O3
Molecular Mass 159.69
Appearance Reddish brown Powder
Melting Point 1566 degC
Boiling Point N/A
Density N/A
Solubility In H2O Insoluble
Exact M. 159.855 g/mol

Iron Oxide Health & Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information NONH

Iron oxide is chemically Fe2O3. Powder of a dark or deep red colour. Insoluble in water. Soluble in hydrochloric and sulfuric acids. Purity: 99.5% Particle size: 150nm or 50nm About iron oxide Fe2O3 Powder : Haematite and Ferric oxide are inorganic compounds with the formula Fe2O3. It is the main… Continue reading

Glyceryl trioleate CAS 122-32-7 |

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This product has a yellowish liquid that is tasteless, with a boiling temperature of 235-245 degrees Celsius. Its relative density (25C) is 0.91, and its solubility in organic solvents. Alcohol, however, does not dissolve it. The HLB value for this product is about 2.

Glyceryl trileate :
Water insoluble, but slightly soluble, in ethanol. Solvent in chloroform, chloroform ether and carbon tetrachloride.
Glyceryl trileate is an internationally trusted Glyceryl trileate. Please send us an inquiry to receive the latest. Glyceryl trileate is available at a price that suits you. If you want to buy Glyceryl trileate in bulk.

Glyceryl trileate product performance :
Glyceryl trioleate is an odorless, light yellow liquid. The boiling point is 235-245. The relative density (25C) of the liquid is 0.91. It’s soluble with organic solvents and alcohol but insoluble with water.
Glyceryl trileate: Technical Parameter :
Product Name HLB Relative density(25%C ) Boiling point
Glyceryl trileate 2.5 0.915 235-245

Applications Glyceryl trileate :
Glyceryl trioleate is an odorless, light yellow liquid. The boiling point is 235-245. The relative density (25C) of the liquid is 0.91. It’s soluble with organic solvents and alcohol but insoluble with water.
As lubricants, smoothing agents and isolators in the textile, electronics, metal, and metal processing industries, they can also be used for electronic, metal, or textile applications. The YOUsuo platform only provides samples for the product to R & D units of enterprises and scientific research departments for use in formula application and research. Be sure to store the sample properly after you receive it. It is forbidden to contact non-professionals or children. Please, non-professionals, do not purchase and use. Do not consume directly. It can be used for textile printing, dyeing and pharmaceutical food fermenting industries. It can also be used to lubricate textiles. Smoothing agent used in metal post processing; Cosmetics are used to emulsify and stabilize food emulsions; Wetting agents can be made from cosmetics.
Packing & Shipping Glyceryl trileate
There are different packing options depending on Glyceryl trileate quantities.
Glyceryl trileate packing 1kg/bottle. 25kg/barrel. 200kg/barrel.
Glyceryl trileate shipping Once payment has been received, goods can be sent by sea, air or express as soon as practicable.

Glyceryl trileate Properties

Alternative Names Triolein
CAS Number 122-32-7
Compound Formula C57H104O6
Molecular Mass N/A
Appearance Pale yellow, tasteless liquid
Melting Point N/A
Boiling Point 235-245
Density 0.915
Solubility In H2O N/A
Exact Mass N/A

Glyceryl trileate Health & Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

This product has a yellowish liquid that is tasteless, with a boiling temperature of 235-245 degrees Celsius. Its relative density (25C) is 0.91, and its solubility in organic solvents. Alcohol, however, does not dissolve it. The HLB value for this product is about 2. Glyceryl trileate : Water insoluble, but… Continue reading

Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates|

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Good dispersion, 1% aqueous liquid is a milky white liquid. No gel phase occurs during dissolution.

About Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates: A milky white liquid is produced by 1% water solution. No gel phase occurs during dissolution.
Global Trust is a trusted brand Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates . Send an inquiry for the latest. Prices of Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates. If you would like to buy Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates Bulk discounts are available.

Product Performance of Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates:
A 1% solution in water is a milky-white liquid. There is no gel phase at dissolution. Excellent permeability for degreasing, resistant to hardwater, and contains a heavy metal. It can also be used in conjunction with anionic, non-ionic, or cationic surfactants. It can also be used as an abrasive, dispersant and degreaser.
Technical Parameter of Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates:
Cloud point() Odor Active content (%) Appearance(25)
70-75[E] Characteristic >=99 Milky liquid

Applicable Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates :
A 1% solution in water is a milky-white liquid. There is no gel phase at dissolution. Excellent permeability for degreasing, resistance to hardwater, and heavy metal salt. It can also be used in conjunction with anionic, non-ionic, or cationic surfactants. It can also be used as an abrasive, dispersant and degreaser.

Packing & Shipping of Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates:
Our packaging is available in a variety of different styles, depending on what you need. Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates quantity.
Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates packing: Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates The weight of a barrel is 25kg per bottle, 200kg per barrel.
Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates shipping: As soon as payment is received, you can ship your order by air, sea, or express.

Sec -Octyl ethanol ethoxylates Property

Alternative Names 2-octanol ethoxide; Hexyl methyl methanol polyoxyethylene ether
CAS Number N/A
Compound Formula CH3(CH2)5CH [O(CH2CH2O)nH]CH3
Molecular Mass N/A
Appearance Milky liquid
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Sec Octyl Alcohol Etoxylates Health and Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

Good dispersion, 1% aqueous liquid is a milky white liquid. No gel phase occurs during dissolution. About Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates: A milky white liquid is produced by 1% water solution. No gel phase occurs during dissolution. Global Trust is a trusted brand Sec-Octyl alcohol ethoxylates;2-Octanol ethoxylates . Send an… Continue reading

SSS Sodium P-styrene Sulfonate CAS 2695-37-6 |

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Sodium p – styrene is a monomer polymer that has a unique reaction. It’s used to make reactive emulsifiers, dyeing agents and emulsifiers.Vinyl activity: >=89%

About Sodium p-styrene sulfonate:
The pstyrene-sulfonate salt has the following characteristics: rich, fine foam; low degreasing ability; low irritation on skin and hair.
It is a global trusted brand Sodium p-styrene sulfonate . Send an inquiry for the latest. Prices of Sodium p-styrene sulfonate If you want to buy Sodium p -styrene sulfonate at bulk prices.

Product Performance of sodium p-styrenesulfonate
After washing, Sodium p styrene is mildly decontaminating and can soften and comb hair.

Technical Parameter of Sodium P-Styrenesulfonate
Product Code Shortname Purity PH Odor Appearance
Sodium p-styrene sulfonate SSS 89% 7.5-11 A slight characteristic smell white powder

Applications Sodium p-styrene sulfonate: The monomer sodium p-styrene has a unique polymer effect. It’s used as an emulsifier for reactive dyes, as an auxiliaries in water treatment (dispersants, flocculants), as a photo-medic (diaphragm) and to prevent electrification. It is mainly utilized as the third polymer in dry fiber production.

Packing & Shipping of Sodium p styrene sulfonate
There are different packing types depending on the Sodium p styrene sulfonate (SPS) quantity.
Sodium p-styrene sulfonate packing: 1kg/bottle. 25kg/barrel. 200kg/barrel.
Sodium p-styrene sulfonate shipping: Once payment has been received, goods can be shipped by air, sea or express.

Sodium P-styrene Sulfonate Properties

Alternative Names N/A
CAS Number 2695-37-6
Compound Formula C8H7NaO3S
Molecular Mass N/A
Appearance NA
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Number N/A

Sodium p-styrene sulfonate Safety & Health Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

Sodium p – styrene is a monomer polymer that has a unique reaction. It’s used to make reactive emulsifiers, dyeing agents and emulsifiers.Vinyl activity: >=89% About Sodium p-styrene sulfonate: The pstyrene-sulfonate salt has the following characteristics: rich, fine foam; low degreasing ability; low irritation on skin and hair. It is… Continue reading

High Purity Single And Multi Layer Graphene Powder, 99% |

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Graphene nanomaterial is a carbon two-dimensional material composed of hexagonal carbon atoms. It has a honeycomb pattern. Purity>99%
Single layer ratio: 97%

What is graphene?
Graphene a monolayer atom of carbon that is tightly bound to a hexagonal honeycomb structure. It is an allotrope carbon in the form sp2-bonded, atom plane. The molecular bonds length is 0.142nm. Graphite can be formed by stacking graphene layers. The distance between crystal planes of graphite is 0.335 nm.
Graphene Strongest Material: This material has a strength 100 times higher than that of steel with the same thickness.

Graphene Discovery Andre Geim & Konstantin Novoselov rediscovered Graphene in Manchester, UK, in 2004. They separated it and studied it. In 2010, Heim, Novoselov and their groundbreaking experiment with graphene in two dimensions won them the Nobel Prize in Physics.

What is the difference between graphene graphite?
No. Graphite has a number of carbon sheets whereas graphene only has one carbon sheet.

The two-dimensional graphene material is made of carbonaceous materials. Graphene exhibits excellent electrical, mechanical and thermal properties.


Our Company produced a single layer graphene whose surface area was 500 1200m2/g.

single layer graphene
single layer graphene Purity: >99.3wt%
single layer graphene single layer ratio: 97%
Single layer graphene Thickness : 0.55nm-1.2nm
single layer graphene Diameter: 1mm – 12mm
Surface Specification: 500-1200m2/g
single layer graphene Color: Black
single layer graphene Conductivity: 1000-1500 S/M
The product COA is C=99.6% and O0.4%

About Single and Multi-Layer Graphene powder
The new material is composed of carbon molecules tightly packed together in a honeycomb-like two-dimensional structure. Graphene Material exhibits excellent optical, mechanical, electrical properties. This material has numerous applications, including materials science, energy production, biomedical delivery and drug development.

What exactly is graphene monolayer?
Graphene consists of a single layer of carbon atoms that are tightly bound together in a hexagonal honeycomb-like lattice. It is an allotrope in the form a plane of sp2-bonded carbon atoms, with a molecular-bond length of 0.142 Nanometres. Single-layer Graphene describes a carbon material that is two-dimensional and consists of a layer consisting of carbon atoms packed in a benzene ring-like structure.

What is graphene with a few-layer structure?
The graphene material (few layer) is a two-dimensional material made of three to 10 layers of carbon atoms in a benzene-ring structure. hexagonal honeycomb structure) in different stacking ways (including ABC stacking, ABA stacking, etc. ).

Multi-layer graphene
Multilayer Graphene (also known as multilayer graphene) is a carbon material with a two dimensional structure composed of a hexagonal honeycomb-like structure of benzene rings. The graphene has a thickness greater than 10 layers, but less than 10nm, and its carbon atoms are stacked closely and periodically in various stacking methods (such as ABC stacking or ABA stacking). ).
Single-layer graphene, a material with high performance that is capable of replacing outdated technology in countless industries, has been developed. Graphene has a very low density, is durable and can conduct a high level of electricity in very small quantities. The graphene can be used for medical devices, solar cell technology, small electrical circuits, and sockets. Many industry leaders are using graphene because of its flexibility to guarantee the safety of various devices, without compromising efficiency. Single-layer Graphene has been proven to be an economical and energy efficient resource.
ACS materials are available as dispersed or powdered single-layer Graphene. The production of single-layer powders is achieved by combining hydrogen reduction with thermal peeling. Our own mechanical stripping methods and dispersion were used to create the monolayer graphene. The products contain no metal ions and are conductive agents that can improve the battery’s high rate of charging and discharging. One-layer graphene and dispersants can be used for batteries, supercapacitors (lead-acid batteries), solar cells and semiconductor chips. They are also found in graphene films and coatings.

Graphene for sale:
We are an established global Single and Multi Layer Graphene supplier . Please send us an inquiry to find out the latest G Raphene Price.

Graphene is made up of hexagonal honeycomb-like layers of carbon. Chemical vapor deposition graphene or films are polycrystalline. Multiple small graphene regions grow and merge into a continuous sheet. Comparing to single-layers graphene, less layers can develop into heterostructures or materials by inserting other substances into the layered structure.

Graphene manufacturing
The four most common methods used to produce graphene powder include the REDOX, SiC epitaxial, and Chemical Vapour Deposition (CVD).
Hummer method was used to prepare GO. The most common preparation methods produce graphene that is denser and tends towards aggregate. The graphene clumps that result are not soluble in water, or any other polar solvents. They cannot be dispersed and further treatment is difficult. Our dispersible, re-dispersible graphene can avoid this problem.

Graphene Single Layer and Multilayer
Industrialized applications of graphene are accelerating due to the breakthroughs in mass production and the solution of large-size problems. Based on existing research results the first commercial fields that may achieve application are mobile devices. aerospace and new energy batteries. Due to their unique combination electronic, mechanical, and optical properties, graphene nanomaterials are used in energy generation and storage. These materials are also used in research and development, as well as new energy batteries and transistors.
Graphene is a hot topic in research and applications. Graphene is widely used as a material for electrodes in batteries, display screens transparent, sensors, transistors, capacitors, semiconductors, etc. Due to graphene’s excellent performance and application potential, many important advancements have been made across a wide range of fields, including chemistry and materials, physics, biology and energy. Researchers are experimenting with different methods across different fields in order to produce high quality, large-area materials of graphene. By continuously optimizing and improving the preparation of graphene and its material properties, the cost of preparation can be reduced, allowing for its wider use and gradual industrialization.

Condition of Graphene Particles in Storage:
The graphene can be affected by dampness, so it is important to store the powder in a dry and cool room. In addition, graphene powder must not be exposed to stress.

Shipping & Packing of Graphene Powder:
We offer a variety of different packings depending on the quantity of graphene.
Graphene Powder Packaging: Vacuum packed, 100g,500g or 1kg/bag or 25kg/barrel or as per your request.
Graphene powder shipment: can be sent out via air, sea or express as quickly as possible after payment receipt.


Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with over 12 years’ experience in the production of high-quality nanomaterials. These include boride powders, nitride particles, graphite particles, sulfide particles, 3D-printing powders, etc.
Contact us and submit an inquiry. (brad@ihpa.net)

Graphene Powder Properties

Alternative Names Graphene nanopowder, 2D carbon, monolayer graphene,
bilayer graphene, graphene nanosheets, graphene nanoribbons,
graphene nanoplatelet
CAS Number 1034343-98-0
Compound Formula C
Molecular Mass 12.01
Appearance Black Powder
Melting Point 3652-3697
Boiling Point 4200
Density 2.267 g/cm3
Solubility In H2O N/A
Thermal Expander N/A

Graphene Powder Health & Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information N/A

Graphene nanomaterial is a carbon two-dimensional material composed of hexagonal carbon atoms. It has a honeycomb pattern. Purity>99% Single layer ratio: 97% What is graphene? Graphene a monolayer atom of carbon that is tightly bound to a hexagonal honeycomb structure. It is an allotrope carbon in the form sp2-bonded, atom… Continue reading

High Purity Lanthanum Nitride LaN Powder CAS 25764-10-7, 99.9% |

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Lanthanum nitride powder is also called LaN. Lanthanum powder LaN is widely used in high-end technology, ceramics, magnetic materials and semiconductor materials. Purity: 99.9%
Particle Size: 100 mesh

Lanthanum Nitride powder – LaN :
The chemical formula for lanthanum nitride (LaN) is a powdery black substance with a molal weight of 152.91g/mol.
The air is filled with a powder that can easily be oxidized. It dissolves in acid and ammonia when there is high humidity. It’s stable at room temperatures in N2 or ar. The structure is similar to that of NaCl. A = 5.275×10-10m.

Lanthanum Nitride LaN Product Performance:
Our lanthanum powder LaN (CAS 25764-10-7) is of high purity and ultrafine particle size with larger surface area.

Technical Data for Lanthanum Nitride (LaN) Powder
Part Name High Purity Lanthanum Nitride Powder
MF LaN
Purity 99.9%
Particle Size -100 mesh
Useful Information Lanthanum nitride powder LaN is used to make high-end electronic devices, sputtering phosphors and targets, ceramics, magnetic materials semiconductor materials, coatings etc.
Specification of Lanthanum Nitride powder:
Part Name Lanthanum Nitride Powder
Appearance Black Powder
Purity 99.9%
Ca (wt%) 0.0011
Fe (wt%) 0.0035
Si (wt%) 0.0014
C (wt%) 0.0012
Al (wt%) 0.0016
Mg (wt%) 0.0009



How is Lanthanum Nitride LaN Powder manufactured?
The nanometer lanthanum-nitride preparation method is to react the nanometer metal with nitrogen for 1-24 hours under pressure and protect it by inert gas.

Applications Lanthanum Nitride LaN Poudre :
Lanthanum nitride powder is also called LaN. Lanthanum Nitride Powder is used to make high-end electronics and ceramic materials.
As a catalyst, lanthanum-nitride is useful for the synthesis of ammonia
LED materials are available in a variety of colors.
Phosphorus
Ceramics
Magnetic materials
Semiconductor device
Dye
Electronic Products
Catalyst

Packing & Shipping Lanthanum Powder LaN:
The quantity of Lanthanum Nitride LaN powder will determine the type of packaging we use.
Lanthanum nitride powder LaN packing As per your request, vacuum packaging is available in 1kg/bags, 25kg/barrels, or both.
Shipping of lanthanum nitride powder LaN Upon receipt of payment, goods can be shipped by sea or air.

Lanthanum Nitride LaN Particle Properties

Alternative Names Lanthanum (III) nitride and lanthanum (3+) mononitride
CAS Number 25764-10-7
Compound Formula LaN
Molecular Mass 152.912
Appearance Black powder
Melting Point N/A
Solubility Insoluble
Density N/A
Purity 99.90%
Particle Size -100 mesh
Bolding Point N/A
Specific Heating N/A
Thermal Conduction N/A
Thermal Expander N/A
Young’s Module N/A
Exact Mass 152.909
Monoisotopic Mash 152.909

Lanthanum Nitride LaN Poudre Health & Safety Information

Safety Advisory Warning
Hazard Statements H315-H319-H335
Flashing point N/A
Hazard Codes Xi
Risk Codes N/A
Safety Declarations N/A
RTECS Number N/A
Transport Information NONH for All Transport Modes
WGK Germany N/A

Lanthanum nitride powder is also called LaN. Lanthanum powder LaN is widely used in high-end technology, ceramics, magnetic materials and semiconductor materials. Purity: 99.9% Particle Size: 100 mesh Lanthanum Nitride powder – LaN : The chemical formula for lanthanum nitride (LaN) is a powdery black substance with a molal weight… Continue reading

High Purity Nitinol Titanium Ni-Ti Alloy Powder |

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Nitinol Titanium is a powder that is made from a shape memory metal, which is an alloy with good plasticity. At a given temperature it can return to its original form. Purity:99.9%
Particle Size: 15 – 53 Micron

Nitinol Nickel Titanium Ni Ti Alloy Powder :
Nitinol or Nickel-titanium is an alloy consisting of nickel and titanium, with atomic weights that are about equal. The different alloys are named based on the nickel weight percentage, for example nickel. Nitinol 65 and Nitinol. The shape memory effect is visible at various temperatures.
Nitinol alloy is a form memory alloy. It can return to its original shape automatically at a given temperature. Its expansion is more than 20% and its fatigue life is 7 times greater than 1 * 10. Its damping characteristics are also 10 times higher than those of ordinary springs.
Memory alloys have a unique memory function and also excellent characteristics like wear resistance. They are corrosion resistant. They are high damping.
Nitinol possesses two unique and closely related properties: superelasticity (also known as pseudoelasticity) and shape memory. Nitinol has the shape memory property. This is its ability to deform and maintain its shape at a certain temperature. When an external force is removed it will retain its shape. Superelasticity refers to the ability of metals to withstand large forces and instantly return their original shape when the external force has been removed. Nitinol is able to deform 10-30 times as much as ordinary metals. It also restores its original form. It depends on the temperature of Nitinol if superelasticity or shape memory is observed. Shape memory is observed below the alloy’s transition temperature; superelasticity occurs above it. If you are interested in buying Nitinol Nickel Titanium Ni-Ti Powder in bulk, please send us an inquiry for the most recent price.

Miron nitinol powder, Ni-Ti alloy powder
Particle size range: 15 to 53 microns
Ni:Ti-5:5 as per your request
Purity:99.9%
Package: vacuum packing, 1 kg/bag, as per your request.
99.9% (Minimum)
Making Method: Laser evaporating


Nano nitinol powder, Ni-Ti alloy powder
Particle size 70nm
Ni:Ti-5:5 as per your request
Purity:99.9%
Shape:spherical
Package: vacuum packing, 1kg/bag (or as per your request).
Sphere percentage: 99.9%

What is Nitinol Nickel Titanium NiTi alloy powder ?
The excellent reactivity of Titanium and the strict control over composition make Nitinol extremely difficult for manufacture. Every atom that titanium combines with carbon or oxygen is an atom removed from the NiTi crystal lattice. This changes the composition of the metal and lowers its phase transition temperature. There are basically two melting methods.
Vacuum arc remelting (VAR)
This is done by creating an arc from the raw material to the water-cooled strike plate. The mold is copper, which is water-cooled. Melting is performed under a vacuum.
Vacuum induction melting (VIM)
It is done using an alternating magnet field to heat the raw material (usually carbon). It is done in a vacuum.
These two processes have their own advantages. However it has been shown that compared to VART, the VIM has a lower number of inclusions. This results in a material with a greater fatigue resistance. Some research studies have shown that using ultra-high purity plasticizers in raw materials can improve fatigue performance and reduce the number inclusions. There are other methods that can be used at a boutique level, including electron beam melting, plasma arc melt, and induction skull melt. In laboratories, physical vapor deposit is also used.
Nitinol’s high elasticity makes it relatively easy to work hot, but the cold is more difficult. The increased friction between the roller and the mold is a result of this. The same reason makes machining difficult. Worse, Nitinol’s thermal conductivity is poor, which makes it hard to remove heat. Grinding (abrasive-cutting), electrical discharge machine (EDM) or laser cutting is relatively easy.

Application of Nitinol Nickel Titanium NiTi Powder
Nitinol has a tensile force of 1000 MPa. The tensile strength of Nitinol is 1000 MPa.
Nickel and titanium components are evenly divided in the alloy, so that each component is half. Controlling the components can adjust the temperature range in which its shape memory works. In general, the lower temperature is the higher the Nitinol content. The memory alloy is able to work at room temperatures when it contains 55% titanium and 45% nickel.
Shape memory alloy is used in the manufacture of pearl necklaces and wristlets made of wires. Bras are also woven from wires. The body temperature will cause these health products and decorative items to regain their original stiffness and curvature when worn. You can use Nitinol metal to create orthodontic wires that correct deformed teeth by using oral temperature.
Nitinol may be used in place of traditional actuators like servomotors or solenoids. Stiquito is a six-legged robot.
For fluid thermal valves Nitinol is used as a spring. The material serves both as a temperature sensor, and also an actuator.
This alloy is used to stabilize images in mobile phones, as well as in sport cameras.
The industry has adopted alloys in pneumatic seats to create comfortable seats.
The alloy Chevrolet Corvette is equipped with a nickel titanium memory alloy actuator. It replaces a heavier electric transmission that opens and closes the hatch, releasing air from the body.

Conditions for Nitinol Titanium Powder Storage:
The product’s performance will be affected by damp reunion, so it is best to store this product in a cool and dry place, without exposing it to the air. It is also important to avoid using the product under stress.

Product Code: Ni-Ti alloy Nitinol powder, factory supply
Nitinol color powder: Grayish black
Nitinol – purity of the powder: 99.9%
Nitinol – powder size: 15-53 microns and 70nm
Nitinol – Nitinol powder – Minimum Quantity: 0.1kg
Nitinol – powder form: spherical
Nitinol storage: Keep in a dry, ventilated and shady storage area
Transportation of Nitinol powder: Transporting mixed transport with strong oxidants is not allowed.

Nitinol Titanium Ni Ti Alloy Powder Packing & Shipping:
The nitinol Ni-Ti powder quantity determines the different packing options.
Nitinol Ni-Ti titanium alloy powder packaging: vacuum packing 100g, 500g, 1kg per bag, 25kg per barrel, or your request.
Shipping of Nitinol Ni-Ti titanium alloy powder: can be sent by air, sea or express as soon as payment has been received.

Nitinol Powder Properties

Alternative Names Nickel titanium (also called NiTi or Ni-Ti), is a shape memory alloy.
Nickel-titanium form-memory-alloy
CAS Number 52013-44-2
Compound Formula NiTi
Molecular Mass N/A
Appearance Black Powder
Melting Point 1300 degC
Boiling Point N/A
Density 6.45 g/cm3
Solubility In H2O N/A
Poisson’s Ratio 0.33
Specific Heating 0.20 cal/g*degC
Tensile Strength 895 MPa – (Ultimate, fully anodized)
Thermal Conduction 0.18 W/cm (austenite), 0.086 W/cm (martensite)
Thermal Expander 11.0 x 10-6/degC (austenite), 6.6 x 10-6/degC (austenite)

Nitinol Powder Health & Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information N/A

Nitinol Titanium is a powder that is made from a shape memory metal, which is an alloy with good plasticity. At a given temperature it can return to its original form. Purity:99.9% Particle Size: 15 – 53 Micron Nitinol Nickel Titanium Ni Ti Alloy Powder : Nitinol or Nickel-titanium is… Continue reading

Lauramidopropyl Betaine CAS 61789-40-0

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It is compatible and has good solubility. Its compatibility improves the softness of the washing product, its conditioning, and low temperature stability.

Lauramidopropyl Betaine, CAS 61789-40-0 It has excellent solubility, compatibility, foaming, thickening, and compatibility properties that can improve the softness of products, the conditioning, and the low temperature stability. It also has antistatic properties, biodegradability, and good resistance to hard water.

Lauramidopropyl Betaine, CAS 61789-40-0 Product Performance:
is a leading global Lauramidopropyl Betaine. Please send us an email to receive the most recent price for Lauramidopropyl Betaine. If you are interested in purchasing Sodium Lauramidopropyl Betaine CAS 6179940-0 in bulk.

Technical Parameters of Lauramidopropyl Betaine, CAS 61789-40-0
Product Code Shortname Solid content Formula Molecular PH NaCl
Lauramidopropyl Betaine LAB 35+-1 N/A 5.0-7.0 <=6.0

Applications Lauramidopropyl Betaine CAS 61789-40-0:
It’s the main ingredient in mild baby soaps, baby foam baths and baby skin care; it can also be used to soften hair and skin care formulas. It’s widely used in cleaning agents, shampoos and body washes.
Lauramidopropyl Bettaine CAS: Packing & Shipping
We offer a variety of packing depending on what you need. Lauramidopropyl Betaine CAS 61789-40-0 quantity.
Lauramidopropyl Betaine CAS 61789-40-0 packing: Lauramidopropyl Betaine CAS 61789-40-0 The weight of a barrel is 25 kg per bottle, 200 kg per barrel.
Lauramidopropyl Betaine CAS 61789-40-0 shipping: Once payment has been received, goods can be shipped by air, sea, or express.

Lauramidopropyl Betaine CAS 61789-40-0 Properties

Alternative Names Lauryl amphoteric Imidazoline
CAS Number 156028-14-7
Compound Formula N/A
Molecular Mass N/A
Appearance A slight characteristic smell
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Volume N/A

Health & Safety Information on Lauramidopropyl Betaine, CAS 61789-40-0

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

It is compatible and has good solubility. Its compatibility improves the softness of the washing product, its conditioning, and low temperature stability. Lauramidopropyl Betaine, CAS 61789-40-0 It has excellent solubility, compatibility, foaming, thickening, and compatibility properties that can improve the softness of products, the conditioning, and the low temperature stability…. Continue reading

What is Zinc Stearate Used For?

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Why is Zinc Stearate Used? Zinc Stearate, a common chemical in cosmetic products. In small quantities, it is considered safe. It can cause respiratory distress and breathing difficulties if exposed to high doses for a long time. The drug has been linked with acute pneumonitis. This means that its use should be approached with caution.

What is zinc Stearate?
The chemical zinc-stearate, also known as zinc-stearate, is used to produce thermal-sensitive papers that can be used with faxes, receipts from point-of sale and labels. The zinc stearate mixture is used to prevent the paper from adhering to the thermal-sensitive printing head. Paper manufacturers buy zinc-stearate as powder, and then grind it down into aqueous emulsion. This emulsion, along with other chemicals, is used to create thermal-sensitive papers.

Although zinc stearate can be used for many things in cosmetics, its primary purpose is to act as a lubricant and release agent. It also acts as a heat stabiliser. It is also used for the manufacture of rubber and other plastics. It improves the texture of a product and is sometimes combined with zinc dioxide to improve its properties.

OSHA and NIOSH, the National Institute for Occupational Safety and Health, have published guidelines for workers that are exposed to Zinc Stearate. These guidelines were created to prevent workers from being overexposed and protect their health. After being exposed to zinc, workers must wash the chemical off their skin and clothes and be extra careful to wear protective equipment. Workers who experience a negative reaction to zinc should seek medical care.

Zinc stearate comes as a white powder that has a distinct odor. Its molal weight is 1.1g/cm-3. Insoluble in water, it is soluble with ethyl Alcohol, Diethyl Ether, and some acid. It is nontoxic and noncorrosive, and can be applied to many different applications.

This chemical is used as a lubricant to prevent the separation of emulsions. It increases the thickness of lipids in cosmetics. Also, it reduces the clarity of the finished product. Stearic Acid is the source of this substance, which can be derived both from animal and vegetal sources.

Zinc is an elemental metal that can be found all over the globe. It is also a transitional metal and is used in a variety of alloys and compounds. There are many ways to use zinc, but it’s vital that you get the correct amount for your needs. Whole grains and seed are a good source of zinc.

Is zinc stearate safe in cosmetics?

Zinc stearate is the zinc salt of naturally occurring fatty acids, such as stearic and palmitic acid. The TSCA (Toxic Substances Control Act), has determined certain zinc stearate amounts are likely pose a risk to worker’s health. Based on the number workers exposed to the chemical in the US, these levels were determined to be reasonable. Nevertheless, some experts think that the data is likely to be underestimated.

Zinc stearate can be used in cosmetics, but only in small amounts. It is a material that poses a low- or moderate-risk to skin. OSHA does warn that excessive zinc use can cause harm to humans. Check the ingredients and adhere to good manufacturing practices.

The powder form of zinc stearate has a distinct odor. It has a molecule weight of 1.1g cm-3, and is not soluble in water. But it is soluble with ethyl alchohol, diethyl-ether and acids. It is common to find zinc stearate in cosmetics due to its high stability.

Rubber can also be made with zinc stearate. Its properties are ideal for lubrication, as it prevents emulsions to separate and improves texture in cosmetics. It is used in paper and plastics industries as a lubricant, thickener, and to prevent emulsions from separating. It also has antibacterial properties.

Zinc Stearate is extremely irritating to rats and guineapigs. Zinc stearate is causing granulomatous lesions in the peritoneum, lungs and guineas pigs of rats.

Is zinc stearate harmful?

Many cosmetics include zinc stearate. Although zinc stearate is generally considered safe, exposure to large quantities can lead to serious health problems. Zinc stearate in large quantities can lead to respiratory distress or even cancer. This chemical should be avoided in all cosmetic products.

You should adhere to specific guidelines if you are using zinc stearate. This will prevent overexposure. To begin with, you should wash the chemical off your skin as quickly as you can. Avoiding contact with contaminated clothing is also a good idea. Lastly, you should keep the substance cool and dry.

The powder form of zinc stearate can be used in many ways. Zinc stearate is an antiskid agent, and it’s a common ingredient in PVC stabilizers. In paints, varnishes and other products it is used as a lubricant or mold release agent. Additionally, zinc stearate has been used for years as a soothing agent on the skin.

The EPA has assessed the safety of Zinc Stearate by reviewing the scientific data available. It examined the validity and reliability of the studies as well the relationship between the zinc stearate risk and humans. The study also evaluated the susceptibilities of subgroups of consumers who were identified to zinc stearate.

The powdery white zinc stearate has a distinct odor. It is nontoxic, has a melt point of 130°C and does not contain any toxic chemicals. It is not soluble in water. However, it does dissolve in diethyl or ethyl alchohol. The chemical is not without its pros but there are also some concerns.
What is zinc stearate manufactured from?

Zinc Stearate is white powder made of zinc dioxide and stearic Acid. Non-toxic, it has a wide range of industrial applications. It can be used as an emulsifier and thickener, or as a release agent. They are used in a variety of ways by companies that produce cosmetics, detergents, and more.

This ultra-fine powder has a distinctive odor and is highly soluble. Manufacturers prefer this material because it is easily dispersed. It is transparent and heat resistant, and resists yellowing and abrasion. In the polymer sector, zinc stearate acts as a heat stabiliser component and helps control the thermal degrading of PVC compounds. It is also used by the cosmetics industry and pharmaceutical industry.

Zinc stearate has been widely used in the cosmetics sector. It is not toxic, even though it does not sound very pleasant. Small amounts are not toxic. To avoid adverse reactions, it’s important that you handle zinc stearate carefully.

Zinc stearate can be found in cosmetics, where it’s used as a lubricant. Plastics also use it as an anticorrosion and water repellent. It is also used in paint and rubber.

Often, when preparing a composition of zinc stearate it is mixed with fatty acid. The zinc stearate resulting from this process is washed, dried, and then reconstituted. Sometimes it is derived from zinc chloride, or stearic acetic acid. Also, it is commonly derived by the chick-edema factor. The most common zinc stearates compounds are made of palmitic and/or stearic acids. They have a high percentage of zinc oxide, usually between 13.5 and 15 percent.

Suppliers of zinc stearate powder
Technology Co. Ltd. has been supplying zinc-stearate for over 12 years. We ship all our products around the world.
Send us an email if you would like to know more about High Purity Graphite Powder. (brad@ihpa.net)

Why is Zinc Stearate Used? Zinc Stearate, a common chemical in cosmetic products. In small quantities, it is considered safe. It can cause respiratory distress and breathing difficulties if exposed to high doses for a long time. The drug has been linked with acute pneumonitis. This means that its use… Continue reading

PEG-150 Distearate |

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PEG 150 Distearate has many uses, including cosmetics, pharmaceutical emulsifiers.

PEG 150 Distearate PEG 150 Distearate has many uses, including cosmetics, pharmaceutical emulsifiers.
It is a global trusted brand PEG 150 Distearate . Send an inquiry for the latest. Prices of PEG-150 Distearate. PEG-150 distearate is available for purchase. Bulk discounts are available.

PEG 150 Distearate Product performance:
Peg 150 Distearate is a good thickening agent for AES, BS-12, and 6501.

Technical Parameters of PEG 150 Distearate
Product Code Melting point HLB Appearance
PEG 150 Distearate 54-62 18.4+-1 White waxy flake

Applicable PEG-150 Distearate:
PEG-150 acts as a solvent, thickener and emulsifier. In cosmetics, food and textile industries, it is used for thickening shampoo, liquid soap and liquid detergent. It can improve the consistency, softness and conditioning of the shampoo. It can also suppress the characteristics that make toilet solid block cleaner slightly soluble in aqueous solution for deodorization and cleansing. As a stabiliser for O/W, it can also be used as an addition for corrosion inhibitors.

PEG 150 Distearate Packing & shipping:
We offer a variety of packing depending on what you need. PEG-150 Distearate quantity.
PEG 150 Distearate Packing PEG 150 Distearate You can choose between 25kg per barrel or 200kg per barrel.
PEG 150 Distearate shipping Once payment has been received, goods can be shipped by sea, air or express as soon as practicable.

PEG150 Distearate Property

Alternative Names N/A
CAS Number 9005-08-7
Compound Formula C18H34O6 (C2H4O)20
Molecular Mass N/A
Appearance White waxy flake
Melting Point 54-62
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Weight N/A

Distearate of PEG-150 Health& Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes R36/37/38
Safety Declarations S26:;S36
Transport Information
N/A

PEG 150 Distearate has many uses, including cosmetics, pharmaceutical emulsifiers. PEG 150 Distearate PEG 150 Distearate has many uses, including cosmetics, pharmaceutical emulsifiers. It is a global trusted brand PEG 150 Distearate . Send an inquiry for the latest. Prices of PEG-150 Distearate. PEG-150 distearate is available for purchase. Bulk… Continue reading