Sodium Cocoamphoacetate CAS 68334-21-4

About Sodium Cocoamphoacetate:
Mild amphoteric surfactant, with good foaming power and foam stability; stable in acid, alkaline, electrolyte, and strong resistance to hard water; Sodium Cocoamphoacetate can provide good foam boosting and stability in anionic surfactant system Foaming and thickening effects; 

Product Performance of Sodium Cocoamphoacetate:
Sodium Cocoamphoacetate is compatible with anionic, nonionic and cationic surfactants.

Technical Parameter of Sodium Cocoamphoacetate:

Product Name    Short NamePurity    PH    OdorAppearance  
Sodium CocoamphoacetateCAMC38.0-41.08.5-9.5Slight characteristic odorLight yellow to light amber viscous liquid


Applications of Sodium Cocoamphoacetate:

Used in the formulations of shampoo, body wash, facial cleanser, hand sanitizer, silk wool clean, industrial cleaning, metal corrosion inhibitor, foaming agent, foaming agent, etc.

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

Sodium Cocoamphoacetate CAS 68334-21-4插图

Sodium Cocoamphoacetate Properties

 

Other NamesN/A
CAS No.68334-21-4
Compound FormulaN/A
Molecular WeightN/A
AppearanceNA
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Sodium Cocoamphoacetate Health & Safety Information

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Hazard StatementsN/A
Hazard CodesN/A
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About Sodium Cocoamphoacetate:Mild amphoteric surfactant, with good foaming power and foam stability; stable in acid, alkaline, electrolyte, and strong resistance to hard water; Sodium Cocoamphoacetate […]

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Zinc P-tert-butylbenzoate CAS 4980-54-5

Product Name: Zinc p-tert-butylbenzoate

Formula:C22H26O4Zn

CAS NO:4980-54-5

Molecular weight:419.83

About Zinc P-tert-butylbenzoate:
Zinc tert-butylbenzoate is a light yellow powder. Chemical molecular formula: C22H26O4ZN, CAS number: 4980-54-5, molecular weight: 419.83, main use: Stabilizer mainly used for polyvinyl chloride, is a stabilizer for fine PVC soft transparent article. Feel free to send an inquiry to get the latest price if you would like to buy Zinc P-tert-butylbenzoate in bulk.

Properties of  Zinc P-tert-butylbenzoate:
Zinc P-tert-butylbenzoate (CAS 4980-54-5) is a white to light yellow powder.

Technical Data of Zinc P-tert-butylbenzoate:

Loss on drying                                            ≤5%
zinc content                                      14~16%
Particle size                      (200mesh passing)≥99%
Heavy metal≤10PPM

 

How is Zinc P-tert-butylbenzoate produced?
At present, existing synthesis methods are oxidative synthesis, mainly including no solventless oxidation, nitric oxidation, liquid-phase catalytic oxidation, permanganate oxidation, microwave synthesis method, high-temperature gas-phase oxidation method. These methods are raw materials for t-butyl benzene.

Application of Zinc P-tert-butylbenzoate
Zinc tert-butylbenzoate is a light yellow powder. Chemical molecular formula: C22H26O4ZN, CAS number: 4980-54-5, molecular weight: 419.83, main use: Stabilizer mainly used for polyvinyl chloride, is a stabilizer for fine PVC soft transparent article.
 

Packing & Shipping of Zinc P-tert-butylbenzoate:
We have many different kinds of packing which depend on the zinc P-tert-butylbenzoate quantity.
Zinc P-tert-butylbenzoate packing: 25kg/barrel, or as your request.
Zinc P-tert-butylbenzoate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Zinc P-tert-butylbenzoate CAS 4980-54-5插图

Zinc P-tert-butylbenzoate Properties

Other Namesp-tert-butylbenzoate, Zinc tert-butylbenzoate
CAS No.4980-54-5
Compound FormulaC22H26O4Zn
Molecular Weight419.83
Appearancewhite to light yellow powder
Melting PointN/A
Solubility in waterN/A
Zinc Content14-16%
PurityN/A
Particle Size(200mesh passing)≥99%
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact MassN/A
Monoisotopic MassN/A
  
  

Zinc P-tert-butylbenzoate Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberN/A
Transport InformationN/A
WGK GermanyN/A
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Product Name: Zinc p-tert-butylbenzoateFormula:C22H26O4ZnCAS NO:4980-54-5Molecular weight:419.83About Zinc P-tert-butylbenzoate:Zinc tert-butylbenzoate is a light yellow powder. Chemical molecular formula: C22H26O4ZN, CAS number: 4980-54-5, molecular weight: 419.83, main […]

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Metal Alloy Titanium Rod For Making 3D Printing Powder

About Metal Alloy Titanium Rod For Making 3D Printing Powder :

Purposes: Aviation and ship parts, medical use
 

Execution standard:

Titanium And Titanium Alloy Bars For Powder Production In Additive Manufacturing (GB/T38973-2020)  

 

Permissible size deviation:

Allowable deviation of bar diameter is ±0.1mm. 

The allowable deviation of bar length is ±5 mm, a small amount of bar length shorter than the nominal length (10~100) mm is allowed, but not more than 5% of the total number.  

Both ends of the bar should be cut flat, cutting Angle should not be greater than 4 mm.  
The bending degree of the bar should not be greater than 0.7mm /m.  

 

Appearance quality:

The surface of bar should be clean, no oxide scale, crack, folding and other defects are allowed.  Local defects on the surface of the bar shall be removed and cleaned. Depth shall not exceed allowable diameter deviation.  
The surface of the bar is allowed to be less than half of the allowable diameter deviation of individual slight scratches, indentations, pitting and other defects.  

Payment & Transportation:
Metal Alloy Titanium Rod For Making 3D Printing Powder插图

Metal Alloy Titanium Rod For Making 3D Printing Powder Properties

Other NamesTitanium rod
CAS No.N/A
Compound FormulaTi
Molecular WeightN/A
AppearanceN/A
Melting PointN/A
Solubility in waterN/A
DensityN/A
PurityN/A
Sizecustomized
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact MassN/A
Monoisotopic MassN/A
  
  

Metal Alloy Titanium Rod For Making 3D Printing Powder Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberN/A
Transport InformationN/A
WGK GermanyN/A
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About Metal Alloy Titanium Rod For Making 3D Printing Powder :Purposes: Aviation and ship parts, medical use Execution standard:Titanium And Titanium Alloy Bars For Powder Production In Additive […]

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MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Titanium Aluminum Nitride Ti4AlN3 Powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.


Technical Parameter of Titanium Aluminum Nitride Ti4AlN3 Powder :

Product NameMFPurityParticle SizeMolecular WeightMelting PointColor
Titanium Aluminum NitrideTi4AlN399%200mesh,
400mesh		N/AN/AGray Black

 

How is Titanium Aluminum Nitride Ti4AlN3 Powder Produced? 
1. Weighing niobium powder, aluminum powder and toner, and then ball-milling mixed powder;

2. The mixed powder into the graphite boat, and then into the reactor, and filled with inert gas, ignition, self-spreading reaction, cooling after crushing, sifting, drying to get Ti4AlN3 ceramic powder. The method has the advantages of fast reaction speed, short synthesis time, low energy consumption, low cost and high production efficiency, and the obtained Ti4AlN3 ceramic powder has high purity. The Ti4AlN3 ceramic powder obtained by the invention can be used in aviation, aerospace, electronic industry and nuclear industry, etc.
 
Applications of Titanium Aluminum Nitride Ti4AlN3 Powder:
MAX has been widely used in nanometer adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields.Ti4AlN3 powder can be used for energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc.

 

Storage Condition of Titanium Aluminum Nitride Ti4AlN3 Powder :
The damp reunion will affect Ti4AlN3 powder dispersion performance and using effects, therefore, Titanium Aluminum Nitride Ti4AlN3 Powder should be sealed in vacuum packing and stored in the cool and dry room, titanium aluminum nitride can not be exposure to air. In addition, the Ti4AlN3 powder should be avoided under stress.

Packing & Shipping of Titanium Aluminum Nitride Ti4AlN3 Powder :
We have many different kinds of packing which depend on the Titanium Aluminum Nitride Ti4AlN3 Powder quantity.
Titanium Aluminum Nitride Ti4AlN3 Powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Titanium Aluminum Nitride Ti4AlN3 Powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.


MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder插图



 

Titanium Aluminum Nitride Powder Properties

Other NamesTitanium carbide/Aluminum nitride MXene,
Advanced Max/Mxene Powder, Ti:Al:N, Ti4AlN3 powder
CAS No.N/A
Compound FormulaTi4AlN3
Molecular Weight260.449
AppearanceGray to Black Powder
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Thermal ExpansionN/A
  
  

Titanium Aluminum Nitride Powder Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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Titanium Aluminum Nitride Ti4AlN3 Powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.Technical Parameter of Titanium Aluminum Nitride Ti4AlN3 Powder :Product […]

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Sodium Dodecyl Diphenil Ether Disulfonate CAS 119345-04-9

About Sodium Dodecyl Diphenil Ether Disulfonate:
Sodium Dodecyl Diphenil Ether Disulfonate is a new type of sulfate anionic surfactant. It is easily soluble in water, has good dispersibility, good compatibility with hard water and high electrolyte stability.
Tungstenmolybdenummetals is a trusted global Sodium Dodecyl Diphenil Ether Disulfonate. Feel free to send an inquiry to get the latest price of Sodium Dodecyl Diphenil Ether Disulfonate if you would like to buy Sodium Dodecyl Diphenil Ether Disulfonate in bulk.

Product Performance of Sodium Dodecyl Diphenil Ether Disulfonate:
Sodium Dodecyl Diphenil Ether Disulfonate has excellent penetration, decontamination, emulsification and hard water resistance. 2A1 has good alkali resistance and rich foam. It is an excellent penetrant, dispersant, degreasing agent and wetting agent.

Technical Parameter of Sodium Dodecyl Diphenil Ether Disulfonate:

Product Name    Short Name Solid content      PH    OdorAppearance  
Sodium Dodecyl Diphenil Ether Disulfonate2A145%NACharacteristic odorAmber transparent liquid


Applications of Sodium Dodecyl Diphenil Ether Disulfonate:

Sodium Dodecyl Diphenil Ether Disulfonate is an effective surface tension inhibitor, emulsifier, dispersant and solubilizer, and also a good coupling agent. It has the following characteristics: it has good solubility and stability in acid, lye, bleaching solution and other oxidation systems; it has extremely high stability in high temperature acid and alkali solutions; and The combination of ionic emulsifiers will not produce “cloud point” phenomenon; it can solubilize a series of high electrolyte solutions, such as salt, bleach, strong acid and alkali, and inorganic acid; the structural branch improves the emulsification performance and the organic solution Solubility. It can be used in emulsion polymerization, cleaning agents, textiles, pulp/paper making, agricultural chemicals, oilfield additives, flavor solubilization and other industries.

 


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

Sodium Dodecyl Diphenil Ether Disulfonate CAS 119345-04-9插图

Sodium Dodecyl Diphenil Ether Disulfonate Properties

Other NamesN/A
CAS No.119345-04-9
Compound FormulaC24H35Na2O7S2
Molecular WeightN/A
AppearanceColorless to light yellow transparent solid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Sodium Dodecyl Diphenil Ether Disulfonate Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About Sodium Dodecyl Diphenil Ether Disulfonate:Sodium Dodecyl Diphenil Ether Disulfonate is a new type of sulfate anionic surfactant. It is easily soluble in water, has […]

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LF-84mn ethoxylated propoxylated CAS 68002-96-0

About ethoxylated propoxylated:
Ethoxylated propoxylated is a low-foam non-ionic surfactant with excellent emulsification and dispersion of calcium soap, high resistance to hard water and electrolytes, and excellent lubrication performance, which can improve product lubricity.
Tungstenmolybdenummetals is a trusted global ethoxylated propoxylated. Feel free to send an inquiry to get the latest price of ethoxylated propoxylated.  If you would like to buy ethoxylated propoxylated in bulk.

Product Performance of ethoxylated propoxylated:

Ethoxylated propoxylated has excellent emulsification and dispersion ability of calcium soap, high resistance to hard water and electrolyte, and excellent lubrication performance.


Technical Parameter of ethoxylated propoxylated:

ModelMelting pointContentpHHLBCloud pointAppearance
LF-684213≥99.5  5.0-7.0 5 51-53[1] Transparent to turbid liquid
 LF-686478 60-62[1]


Application of ethoxylated propoxylated:

Ethoxylated propoxylated is applied to water-soluble metalworking fluids: especially suitable for products with medium to high oil content. It is used as an industrial degreaser and as a substitute for oleaginous polyoxyethylene ether products.


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

LF-84mn ethoxylated propoxylated CAS 68002-96-0插图

ethoxylated propoxylated Properties

Other nameAlcohols, C16-18
CAS No.68002-96-0
Compound FormulaN/A
Molecular WeightN/A
AppearanceTransparent to turbid liquid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A
ethoxylated propoxylated Health& Safety Information
Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About ethoxylated propoxylated:Ethoxylated propoxylated is a low-foam non-ionic surfactant with excellent emulsification and dispersion of calcium soap, high resistance to hard water and electrolytes, and […]

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Stannic Sulfide SnS2 Powder CAS 1314-95-0

About Stannic Sulfide SnS2 Powder:
The tin disulfide is an inorganic compound with a chemical formula of SnS2. It is a yellow hexagonal flake with a CdI2 crystal structure. It is hardly soluble in water, but it is soluble in aqua regia and hot alkali solution, and also soluble in sodium sulfide solution. It is commonly used to Make golden paint.
Tin(IV) sulfide crystallizes in the form of cadmium iodide precursor crystals, where Sn(IV) is located in an “octahedral pore” defined by six sulfide centers. It naturally appears as rare mineral montmorillonite, which can be used as a semiconductor material with a bandgap of 2.2 eV.
SnS2 is an n-type semiconductor material with a hexagonal CdI2 structure. Tin disulfide (SnS2) is a layered metal dihalide semiconductor with a chemical and crystal structure similar to molybdenum disulfide (MoS2). In each individual layer, Sn is sandwiched between two Slayers with strong covalent bonds, while a single monolayer is maintained by weak van der Waals forces. When the weak van der Waals force is overcome by physical or chemical peeling, each layer will break freely.
Like many other two-dimensional semiconductors, SnS2 exfoliates to form atomic layer sheets, which can be used in FET, photovoltaic solar cells, sensors, and photocatalyst applications.
The tin disulfide is an acidic sulfide, soluble in aqua regia and hot alkali solution, and can undergo coordination reaction with concentrated hydrochloric acid, but it is insoluble in dilute hydrochloric acid, insoluble in water and nitric acid. It can react with ammonium sulfide to dissolve. Feel free to send an inquiry to get the latest price if you would like to buy Stannic Sulfide SnS2 Powder in bulk.

Stannic Sulfide CAS 1314-95-0 Description:
Product Name: stannic sulfide
Stannic Sulfide formular: SnS2
Stannic Sulfide color: yellow
Stannic Sulfide particle size: -100mesh
Stannic Sulfide purity: 99.99%
Stannic Sulfide apperance: yellow powder
Stannic Sulfide density: 4.5g/cm3
Stannic Sulfide production method: 
1mol of high-purity tin and 2mol of high-purity sulfur are vacuum smelted under high temperature and high pressure, and then melted after subsequent treatment.
Stannic Sulfide analysis:

SnS2ZnAgCuCaAlMgNiPbAs
99.99%≤8ppm≤8ppm≤2ppm≤5ppm≤4ppm≤6ppm≤5ppm≤7ppm≤4.5ppm


How is Stannic Sulfide SnS2 Powder produced?
A bright yellow tin disulfide precipitate can be obtained by passing hydrogen sulfide into the acid solution of tin tetrachloride
In addition, selenium disulfide can also be prepared by the action of sulfide on tin chloride solution.
Tin disulfide can be obtained by directly combining tin and sulfur in the presence of iodine. The reaction requires heating:
Sn + 2 S → SnS2
Another method is to pass hydrogen sulfide into the tin (IV) salt or tin (IV) salt solution and precipitate it.

Applications of Stannic Sulfide SnS2 Powder:
Tin disulfide (SnS2) is a two-dimensional van der Waals semiconductor material with excellent photoelectric properties. The material is non-toxic, environmentally friendly, rich in content and easy to prepare. The properties of tin sulfide are semiconductors, which are mainly used in laboratory research and development and experiments, and are currently very active in the market.
Tin disulfide is an n-type semiconductor material with a layered hexagonal CdI2 crystal structure and a wide bandgap of about 2.35 eV; the wide bandgap makes it have good optical and electrical properties and can be used for holographic recording and electrical conversion System materials, solar cell materials and anode materials of Lithium Chemicalbook sub-cells, etc.
Because tin disulfide has a bandgap similar to silicon, is safe and environmentally friendly, and has a high absorption coefficient, it is very suitable as an absorber layer for solar cells. In recent years, it has become a research hotspot for domestic and foreign experts. It can also be used for imitation gold plating and manufacturing. Used for paints and so on.
Tin disulfide single crystals can be used to prepare single-layer and few-layer SnS2 by mechanical or liquid stripping.
Tin disulfide powder is suitable for liquid chemical exfoliation to prepare SnS2 nanosheets and nanoparticles as low as a few layers of thin films.
Tin disulfide has high sensitivity and high surface activity. The exfoliated SnS2 single-layer or multi-layer ultra-thin film made of bulk crystals and powder has also been used in light emitters, field-effect transistors (FET), gas sensors, and photodetectors. , Thermoelectric photovoltaic and other fields and energy storage equipment, such as the application of lithium-ion batteries.

Storage Condition of Stannic Sulfide SnS2 Powder:
Damp reunion will affect SnS2 powder dispersion performance and using effects, therefore, Stannic Sulfide SnS2 Powder should be sealed in vacuum packing and stored in cool and dry room, the Stannic Sulfide SnS2 Powder can not be exposure to air. In addition, the SnS2 powder should be avoided under stress.

Packing & Shipping of Stannic Sulfide SnS2 Powder:
We have many different kinds of packing which depends on the Stannic Sulfide SnS2 Powder quantity.
Stannic Sulfide SnS2 Powder packing:vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Stannic Sulfide SnS2 Powder powder shipping:could be shipped out by sea , by air, by express?as soon as possible once payment receipt.
Stannic Sulfide SnS2 Powder CAS 1314-95-0插图
 

Stannic Sulfide Properties

Other NamesTin(IV) sulfide, tin disulfide, tin dissulphide, tin sulfide,
tin(4+) dissulfide, SnS2 powder
CAS No.1315-01-1
Compound FormulaSnS2
Molecular Weight182.84
AppearanceGold-yellow Powder
Melting PointN/A
Boiling Point600
Density4.5 g/cm3
Solubility in H2OInsoluble
Exact Mass183.846337
  
  

Stannic Sulfide Health & Safety Information

Signal WordWarning
Hazard StatementsH315-H319-H335
Hazard CodesXi
Risk CodesN/A
Safety StatementsN/A
Transport InformationNONH for all modes of transport
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About Stannic Sulfide SnS2 Powder:The tin disulfide is an inorganic compound with a chemical formula of SnS2. It is a yellow hexagonal flake with a […]

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Why 3D printing metal powder has good plasticity?

What exactly is 3d printed metal powder material Powder for 3D printing of metal It must be able to meet strict requirements regarding fine particle size, distribution of particle sizes, fluidity, loose density, fluidity, and sphericity. Most 3D printers currently use metal powders such as stainless steel and aluminium alloy. Engineering technology’s largest and most valuable metal is the iron base alloy. It is widely used for the formation of complex structures. AlSi10Mg and AlSi12Mg are two of the main aluminium alloys that can be used to 3D print metal parts. Aluminium silicon 12, a light addition, is used to create metal powders of good thermal properties. Combining silicon with magnesium gives aluminium alloy a higher strength and stiffness. This makes it ideal for applications that have good thermal properties and thin walls. Aluminium alloy with low weight is a popular industry non-ferrous metal structural material. This aluminum alloy has low density, high specific strengths, similar to, or even better than, high quality steel and excellent plasticity. 3D printing with aluminium alloy can produce parts that are compact and precise, according to research. It has mechanical properties that are similar to, or even superior to castings. The quality of the parts can be improved by as much as 22% while costing 30% less.


How can you 3D print metal powder materials
The fundamental aspect of powder metalurgisty is the manufacturing of metal powder. You can prepare metal powders in a variety of ways, including reduction, electrolysis and carbonyl decomposition. There are four main methods to produce metal powders: solid reduction, electrolysis chemical and atomization. To produce elemental metal particles, most manufacturers employ electrolysis and reduction techniques. These methods aren’t suitable for making alloy powders. The atomization technique tends to override this problem. It is used by manufacturers to create alloy powder.

Performance requirements of 3D printing metal powder
Primarily, ceramic inclusions of low purity will reduce performance. Also, they have high melting points and can be difficult to sinter. Powder must not contain ceramic inclusions. Also, it is important to control the nitrogen and oxygen content. The atomization process is the main method of powder preparation for metal 3D printing. This powder is easily oxidized because it has a high specific area. Customers with special requirements for aerospace or other applications have higher standards. This indicator includes the following: The oxygen content of high temperature alloy powders is 0.006% to 0.018%; that of titanium powders is 0.007% to 0.013% and that of stainless powders is 0.010% to 0.025%. Powder flowability is directly related the fluidity. Fluidity can be affected by the size of the powder particles and their distribution. Particle density will affect how uniform the particle shapes are. Also, the percentage of very fine powder within the mixture will influence the fluidity. When the particle density remains constant, both the relative density as well as the powder fluidity will rise. The powder fluidity will also decrease if water and gas are adsorbed to the particle surface.

The price of powdered 3D printed metal material
Material particle size and purity can affect 3d printed powder’s prices. The purchase volume may also impact the powder’s costs. Large quantities of powder will result in a lower price. Our company website has the prices for 3D-printed metal powder material.

Powder material for 3D printing of metal
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd. Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical material. With more than 12 years experience, it can provide high quality chemical and nanotechnology products, such as 3d printed metal, powder material, graphite, and sulfide materials. We are happy to help you find high-quality 3d printed metal powder material that is also cost-effective. Get in touch You can also inquire at any time.

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What exactly is 3d printed metal powder material Powder for 3D printing of metal It must be able to meet strict requirements regarding fine particle […]

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What is a Surfactant?

What is a Surfactant, and

Surfactant (or surfactant) is the principal ingredient in detergents. Its name derives from its ability stir up activity in soil and water. Surfactants are composed of two components: a hydrophobic hydrophilic tail as well as a hydrophilic hydrophilic top. The hydrophobic portion surrounds the soils. While the hydrophilic part surrounds the water, it is the hydrophobic one. When enough water molecules and surfactants are combined, micelles form. The surfactant heads and tails are protected by the Micelles.

What’s surfactant for?

Surfactants, a type of molecule acting as a surfactant in products, are molecules that work on the surface. They can be found as detergents or dispersants. Because surfactants help clean clothes and skin, they are important ingredients in cleaning products. They are often used in many industries such as firefighting foam and automobile engine lubricants.

Surfactants have two main parts. They are a combination of a hydrophilic (or lipophilic) end and a hydrophilic (or hydrophilic). The hydrophilic portion adsorbs water and the hydrophilic to oil or grease. They are often linked together, creating an asymmetrical structure which can then be “amphiphilic.” These molecules, which are both insoluble in water or oil, tend to adhere to oils and grease.

Surfactants are often made from glycerides. These glycerides contain a mixture between saturated and unsaturated carboxylic acids. Unsaturated carboxylic compounds can have as many carbon atoms as you like the octadecanoic and octadecanoic. Surfactants do not produce insoluble calcium or magnesium, which is an important benefit over soaps. They also don’t create wasteful soap waste. Anionic surfactants however replace the carboxylate by a Sulfate group.

Surfactants reduce liquid surface tension. This action makes it easier to spread and moisten the liquid. It helps dyes or perfumes penetrate fabrics evenly. The ability of surfactants to bond to positively charged surfaces is another advantage.

Surfactants play an integral part in the development and manufacturing of industrial products. These agents are commonly found in detergents (detergents), paints, paper and pharmaceuticals. They’re also useful as emulsifiers for oil recovery.

These surfactants can be classified into two categories: anionic and notionic. Anionic surfactants can be found in detergents, washing liquids, and shampoos. These are the most widely used anionic detergents. This is done by adding an acid catalyst and mixing benzene to an alkene of chloroalkane.

What surfactants have examples?

Surfactants refer to compounds having a negatively-charged end. These substances decrease water surface tension as well interfacial strain in oils, water, and other liquids. Because these compounds are able to blend between different liquids, they can be useful in many areas. Petroleum-based surfactants make up the largest portion of all the global surfactants. Because of this, they are often toxic to the ecosystem.

The two most common types of surfactants that can be classified are nonionic and anionic. Nonionic surfactants have a wide range of uses, including in polishes, cleaning solutions and coatings. They are less expensive to produce and can be used in specific applications such as wetting agent.

Surfactants can be described as molecules with two main parts. The hydrophilic component is smaller than that of the lipophilic section and vice-versa. The hydrophilic section of the surfactant is water-soluble. While the lipophilic portion is oily-soluble. They are both important properties for selecting surfactants.

They are chemical agents which can be found both in liquids (liquids) and solids (solids). These molecules attract water molecules and allow droplets to bind. It happens because water attracts to the hydrophilic portion of the molecular. This attracts water, resulting in clear solutions. Surfactants are often called amphiphiles. It means they act in opposing ways.

You can find surfactants in detergents, and other cleaning products. They are vital ingredients in cleaning products as they act as wetting agents. They remove dirt and pollution. You will also find them in many industrial products.

What 4 types are there of surfactants?

Surfactants consist of amphiphilic molecules, with both hydrophilic as well as hydrophobic portions. Hydrocarbons and fluorocarbon chains are often the hydrophobic portions of surfactants. It is most often a siloxane that forms the hydrophilic segment. It is their polar groups that make anionic and nonionic surfactants different. Both the anionic and non-ionic surfactants carry a negative charge.

Surfactants (moleculars that lower the interfacial pressure on a surface) are crucial for reducing water requirements to remove oil and dirt from it. They are also useful as dispersants or emulsifiers.

Surfactants include fats, oils, glycerides and long carboxylic-chained fatty compounds. By heating a solution of sodium hydroxide, these molecules can be hydrolyzed. This process is called saponification.

According to their ability adsorb in liquids, surfactants can either be hydrophilic- or hydrophobic. Ionic surfactants generally are hydrophilic. While nonionic surfactants might be lipophilic or hyperphilic, they can also be hydrophilic. The surfactant’s solubility will depend on the quantity of hydrophilic or lipophilic groups.

These nonionic surfactants have no electrostatic charge, and they are commonly used for detergents and washing machines. Nonionic surfactants tend to be less effective than anionic but less likely that they will cause skin irritation. They can also be used in low-foaming detergents as they have less foaming.

Though they may not be known, many polymeric surfactants are found in many products. Polymeric surfactants can be used in many ways, from foam boosters to anti-foaming and other roles. They are composed of polymers like polyacrylates as well as xanthone.

Alkylbenzene also makes up a type of surfactant. It can vary in molecular Mass, but typically it consists a combination of alkylbenzenes that have between 10 and 15 carbon atoms. It was in the 1960s that steam cracking became possible to obtain ethylene.

Caionic is another category of surfactants. Quaternary ismonium compounds make up these compounds. Some examples of these compounds are alkyldimethylbenzylammonium chloride, alkyldimethylethylbenzylammonium chloride, and didecylammonium chloride. These compounds feature shorter alkyl chains, benzyl substitution, and a C16–C16 dialkyl pattern.

What are the most common surfactants?

Surfactants cover a range of chemicals and are often used in industrial processes. They have the ability to combine dissimilar materials and emulsify. There are three main types of amphoteric: anionic, nonionic, and anionic. Every type can be used in different situations.

You can make nonionic suprafactants by adding a sugar group to your base. These compounds are very safe and nontoxic. Coco glucoside is a popular example, along with Decyl-glucoside or Lauryl glucoside. Formulators use the most common nonionic surfactants. However, they may not foam as well. In order to get the cleaning effect desired, nonionic surfactants are typically mixed with other substances.

In laundry detergents, and in dishwasher detergents, nonionic surfactants are used. They also kill microorganisms better and are widely used in disinfectants. If used in excessive amounts, though, the chemicals can cause irritation. Many detergents are made with a mixture of anionic as well as nonionic surfactants, which gives them a more gentle effect.

The hydrophilic properties of propylene oxide or ethylene oxid are different from those of propylene oxide. They can be used in industrial applications as fumigants or to sterilize food and medical equipment. Wu and his colleagues investigated the various locations of propylene dioxide in surfactants. Wu et.al. noted that the hydrophile/lipophile scales were different in these compounds.

Neben den beiden major surfactant types, gibt es auch cationic und non-ionic. Non-ionic and anionic surfactants, on the other hand, are distinguished by their positively charged head-groups. A few surfactants have germicide properties.
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What is a Surfactant, and Surfactant (or surfactant) is the principal ingredient in detergents. Its name derives from its ability stir up activity in soil […]

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TZM Metal

tzm metal is a molybdenum-zirconium-titanium alloy with high strength, good mechanical properties, low vapor pressure and corrosion resistance. It is widely used in military, aerospace and high-temperature structures pieces.

Typical applications of TZM are in nozzle throat linings, gas pipelines, heat sinks and furnace parts. Various grades of TZM are available, with specific hardness and temperature requirements.

Characterization and Properties of TZM Alloy:

Generally, TZM alloy is prepared by the addition of 0.5% titanium, 0.08% zirconium and 0.002% carbon. It has high melting point, excellent mechanical properties, small linear expansion coefficient, and strong corrosion-resistance.

The chemical composition of the TZM alloy was determined by X-ray powder X-ray diffraction (XRD). It was found that the main content was molybdenum, with the amount of titanium and zirconium being less than the percentage of molybdenum.

Physical and Mechanical Properties of TZM Alloy:

The properties of TZM alloy were studied under a variety of conditions. These include Charpy impact tests of In-exposed and unexposed TZM at different test temperatures, tensile tests of In-exposed TZM at 22 degC and 800 degC, and corrosion resistance testing of TZM in liquid Li at varying test temperatures.

The fracture toughness of In-exposed TZM samples was comparable to that of unexposed reference TZM samples from the same material stock at all testing temperatures. Moreover, In-exposed TZM showed a higher ductile fracture toughness, compared to the Charpy impact test results.


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    tzm metal is a molybdenum-zirconium-titanium alloy with high strength, good mechanical properties, low vapor pressure and corrosion resistance. It is widely used in military, aerospace […]

    Continue reading