Pre-alloyed Iron Copper FeCu Powder

About Pre-alloyed Iron Copper FeCu Powder:
Copper-iron alloy is also a kind of alloy. Fe-Cu powder has excellent electrical conductivity, thermal conductivity, ductility and corrosion resistance, which combines the advantages of copper and iron. An alloy in which copper is the main element and iron is added. Ferroalloy also has uniform composition, reasonable structure, smooth surface, easy storage and handling, as a middle alloy, added to the copper casting, has good deoxidization, fluidity and other characteristics. A small number of rare earth can be added to refine a copper-iron alloy, and copper and iron melt at a similar temperature of about 1,200 degrees, making them perfectly compatible.
Many pure metals have unique properties that we need in some applications. For example in the case of copper, this metal provides excellent corrosion resistance in brine environments. It also has great electrical and thermal conductivity, as it is often used for electronic and electrical wiring. Other properties of copper include ductility, ductility, and softness.
However, pure metals themselves also have negative properties, which will ruin the application. In the case of copper, the metal is very weak. Although work hardening can be used to strengthen it, another way to make it stronger is to add other metals, such as iron.
Like copper, iron is malleable and malleable. It also has good electrical conductivity and tensile strength because it can be stretched without breaking. However, iron is corrosive because it oxidizes to form rust in the presence of water and oxygen.
Sometimes the addition of iron to copper alloys has a positive effect. Some of the main benefits of adding iron to the copper alloy are increased tensile strength and corrosion resistance without compromising the original electrical conductivity of the copper alloy.
Copper – iron alloy: Copper – iron (CuFe) master alloy has high tensile strength, corrosion resistance and high thermal and electrical conductivity. This master alloy is used as a grain refiner when added to other copper alloys such as aluminum bronze and brass. It usually helps to improve the mechanical properties of low alloy copper.
A low copper alloy can become a high copper alloy when iron and other metals are added. They are extremely strong and have a conductivity of 75 to 90 percent. Tungstenmolybdenummetals is a trusted global Pre-alloyed Iron Copper FeCu Powder supplier. Feel free to send an inquiry about the latest price of Iron Copper FeCu at any time.

Brief Introduction of Iron Copper FeCu Powder:

Product Name: FeCu powder, iron copper alloy powder

Hardness of FeCu powder: 102HRB

Tensile strength of FeCu powder: 1534Mpa


TDS of Iron Copper FeCu Powder:

Theoretical Densisty of hydrogen: 7.97g/cm3

Hydrogen Loss of FeCu powder: less than 0.65%

Apparent Density of FeCu powder: 0.6-0.8g/cm3

Tap Densisty of FeCu powder: 0.9-1.1g.cm3

Particle size of FeCu powder: D50=10.0-18.3
 

Features of Iron Copper FeCu Powder:

Preparation Large surface area, high activity, low sintering temperature, high density, high hardness sintered (maximum 102HRB) good sintering stability, bending strength up to 1534 Mpa, good flowability.

How is Pre-alloyed Iron Copper FeCu Powder produced?
When the content of copper powder is 7.44 % by mass and the sintering temperature is higher than the melting point of copper, the compaction expands the maximum. When (Fe-3.44 mass %Cu) pre-alloyed iron powder is mixed with copper powder, the maximum expansion rate of the sample is lower than that of the former when the addition amount of copper powder is 4.00 mass %. However, the compaction made of (Fe-7.18 %Cu) iron alloy powder and copper powder only shrinks when the copper powder is added. The penetration of liquid copper into the interstitial space between solid grains was observed in all sintered billets. The expansion behavior of iron-copper compaction with the same copper powder content changes with the increase of copper content in the initial iron powder.
 
Applications of Pre-alloyed Iron Copper FeCu Powder:
Copper-iron intermediate alloy is a grain refinement agent for brass alloys and aluminum bronze. It can also be used to improve the mechanical properties of low alloy copper and corrosion resistance of copper-nickel alloys.
In FeCu alloy systems, the actual procedures for the obvious mutual diffusion between these two basic elements are very limited. This work focuses on high-energy ball milling techniques to produce FeCu materials and, in some cases, simultaneously deposit them on thin substrates to suit different applications. This deposition occurs within the same crucible range and is used to produce alloys except without the use of grinding balls. Milling time and speed are two parameters that control the thickness and microstructure of the deposition layer. This two-step process generally allows for many practical applications to improve the mechanical, optical, and thermal properties of the target material by mechanical modification of its surface.

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

Packing & Shipping of Iron Copper FeCu Powder:
We have many different kinds of packing which depends on the Iron Copper FeCu Powder quantity.
Iron Copper FeCu Powder packing:vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Iron Copper FeCu Powder shipping: could be shipped out by sea, by air, by express, as soon as possible once payment receipt.
Pre-alloyed Iron Copper FeCu Powder插图

Iron Copper Alloy Powder Properties

Other NamesFeCu, CuFe, Fe:Cu, Iron Copper, Fe-Cu Powder
CAS No.N/A
Compound FormulaFeCu
Molecular WeightN/A
AppearanceGray to Black Powder
Melting PointN/A
Boiling PointN/A
Density8.9 g/cm3
Solubility in H2ON/A
Monoisotopic Mass118.865 g/mol
  
  

Iron Copper Alloy 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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About Pre-alloyed Iron Copper FeCu Powder:Copper-iron alloy is also a kind of alloy. Fe-Cu powder has excellent electrical conductivity, thermal conductivity, ductility and corrosion resistance, […]

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Preparation of Transparent Conductive Material Tin Oxide

Tin Oxide: Tin oxide powder is either white or yellow tetragonal or hexagonal tetragonal or orthorhombic crystals. It has an exceptional transparent conductive property, with a melting point at 1630 and boiling point at 1800. It was the first transparent conductive materials to be commercially used. To improve conductivity and stability it’s often doped using SnO2, Sb or F.

Classification of Tin Oxide

There are two types of Tin Oxide substances: Tin monoxide SnO, and Tin dioxide SnO2. Tin monoxide (black cubic crystal) has a density of 6.46g/cm3 (0). It is not soluble in water, but is readily soluble when acid is used. Cassiterite’s main constituent is Tin dioxide, which is white tetragonal glass. The melting point of the crystal is 1630. Sublimated at 18001900. Density is about 6.95g/cm3. It is insoluble in water and hardly dissolves in acid. However, concentrated sulfuric acid can be long-term heated to dissolve it. Tin monoxide easily becomes tin oxide when it is heated in the atmosphere. If the air is heated, there will be a proportionation reaction: 4SnO–-Sn3O4+Sn Tin monoxide cannot be disintegrated in strong alkali solutions. It also exhibits obvious reduction. Tin dioxide is very stable against heat and oxygen. It can also be eutectic in strong alkali solutions to produce solublestannate. Co-heating Tin (II), salt solution, and strong alkali can produce Tin Monoxide. Tin dioxide can also be made by heating metal tin in the air, or dissolving concentrated nitric Acid in water. After heating and drying, it is possible to make.

Tin Oxide

Preparation 1. Sol-gel method Because of its product consistency, high purity, and low synthesis temp. Solgel is a very successful process. The preparation of nanotin oxide is another popular use for this method. This method produces powder with uniform particle sizes, high specific surfaces, low firing temperature, and high activity. Nanoparticles become agglomerated easily due to their surface tension. Some researchers recently discovered methods like freeze drying, supercritical fluid drying and vacuum drying to solve this issue. Supercritical fluid drying is one of the best, since it removes Surface tension and capillary actions during the drying process. 2. Hydrothermal heating A hydrothermal reaction is any chemical reaction that takes place under extreme pressure and temperature using aqueous solutions as the react medium. This method can be used in closed containers. For the crystallization or reaction of several precursors, it is possible to heat the container and create an unusual physical and chemical environment. A hydrothermal preparation of nanoparticles has the following characteristics: complete crystal grain development; small particles size; uniform distribution; less particle agglomeration; pure composition. 3. Arc gasification method Production equipment in the arc-gasification synthesis process is power supply equipment and pit reactor. Refined tin is heated to 500°C in liquid form and then heated to 2000°C in an electric oven. A large quantity of tin dioxide vapor may be formed by the violent arc gasification process. After cooling, these ultra-fine particles are collected with dust collection equipment. They then burn it in high heat to produce high-purity ultrafine Tin oxide powder. Tungstenmolybdenummetals advanced materials Tech Co., Ltd. is a leading supplier of tin dioxide powder. It has over 12 years’ experience in developing chemical products and researching them. We are here to help you find high quality Tin oxide powder.
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Tin Oxide: Tin oxide powder is either white or yellow tetragonal or hexagonal tetragonal or orthorhombic crystals. It has an exceptional transparent conductive property, with […]

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Sorbitan trioleate CAS 26266-58-0

About Sorbitan trioleate:
Sorbitan trioleate sorbitol as raw material, through dehydration closed-loop formation of hydrophobic sorbitol, and then esterification reaction with 3mol oleic acid. It is a nonionic surfactant, insoluble in water, soluble in organic solvents.
Tungstenmolybdenummetals is a trusted global Sorbitan trioleate. Feel free to send an inquiry to get the latest price of Sorbitan trioleate.  If you would like to buy Sorbitan trioleate in bulk.

Product Performance of Sorbitan trioleate:

Sorbitan trioleate has emulsification, lubrication and defoaming.


Technical Parameter of Sorbitan trioleate:

Product Name   OdorHLBAppearance
Sorbitan trioleateGrease odor1.8Amber to brown viscous oily liquid


Applications of Sorbitan trioleate:

Sorbitan trioleate is mainly used in the cosmetics, textile, paint and petroleum industry It can be used as an emulsifier, thickening agent, rust inhibitor and so on.


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

Sorbitan trioleate CAS 26266-58-0插图

Sorbitan trioleate Properties

Other NamesN/A
CAS No.26266-58-0
Compound FormulaC24H46O6
Molecular WeightN/A
AppearanceAmber to brown viscous oily liquid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A
Sorbitan trioleateHealth& 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 Sorbitan trioleate:Sorbitan trioleate sorbitol as raw material, through dehydration closed-loop formation of hydrophobic sorbitol, and then esterification reaction with 3mol oleic acid. It is a […]

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Metal Alloy 99.95% High Purity Polished Tungsten Round Bar Dia 3mm

About Metal Alloy 99.95% High Purity Polished Tungsten Round Bar Dia 3mm:

Properties: Tungsten rod has special properties, such as low thermal expansion and good thermal conductivity, sufficient resistance to electrical resistance, high elastic modulus.

Applications: Tungsten rod is widely used in various fields, such as support wire, leadin wire, printer needle, various electrodes and quartz furnace, filament, high speed tools, automotive automatic products, sputtering target.  

Following is the normal tungsten rod dimension form. For any special dimension, please feel free to contact us and send an enquiry. 
Metal Alloy 99.95% High Purity Polished Tungsten Round Bar Dia 3mm插图

Metal Alloy 99.95% High Purity Polished Tungsten Round Bar Dia 3mm Properties

Other NamesTungsten bar, Tungsten rod
CAS No.N/A
Compound FormulaW
Molecular WeightN/A
Appearancebar, rod
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 99.95% High Purity Polished Tungsten Round Bar Dia 3mm 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 99.95% High Purity Polished Tungsten Round Bar Dia 3mm:Properties: Tungsten rod has special properties, such as low thermal expansion and good thermal conductivity, […]

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A Revolution in the Abandonment of a New Generation of Semiconductor Conductor Materials

Next-Generation Semiconductor Wires: Cobalt The invention of chip/integrated circuit/semiconductor is the premise for human to enter the information society. As the largest manufacturing sector in the modern era, the chip industry — the semiconductor industry — is at the forefront of technological innovation and represents human industrial manufacturing capabilities. The third industrial revolution, based on semiconductor, has been continually detonated, both by policy and market, with the assistance of artificial intelligence (and big data). China’s semiconductor sector has provided the greatest development opportunities since the establishment of the People’s Republic of China. The pace of innovation for new materials is expected to increase as Moore’s Law approaches its end. Today, twenty years after IBM introduced “copper”, the “era” of “cobalt in the semiconductor industry will officially begin. Recent years have seen many key moments in the semiconductor industry, most notably in device technology as well as transistor architecture. There is a new turning point coming in the semiconductor industry. Innovation of new materials is being followed by “cobalt”, which will slowly end “tungsten” or “copper”.

Enter the Age of Cobalt Wires

As the semiconductor manufacturing process was developed below 10 nanometers the shortcomings of the “copper”, the conductor metal, began to show. The process technology reached the bottleneck between 10 nanometers (10 nanometers) and 7 nanometers (7 nanometers). So, major equipment and semiconductor producers began investing in new materials research to solve the problems of semiconductor manufacturing technology. Applied Materials has a reputation for being a leader in the field of semiconductor equipment. It’s the pioneer semiconductor manufacturer to employ “cobalt” instead of “copper”, “tungsten” and other conductor materials. It is poised to implement such an industrial revolution in commercial chips. This has historic significance. With advanced technology between 10 and 7, “cobalt”, as a conductor, can be achieved stronger conductivity and lower power consumption. The future may see it drop to as low as 5 or 3 nanometer process points. However, unlike transistors, wires and contacts coated with metal are less efficient when smaller than they were when they were larger. When the wire is compared with a straw it will be more susceptible to blocking. There are three main criteria for selecting the right wire materials: filling ability, resistance, and reliability. Aluminium is less reliable for processes exceeding 30 nanometers. However, copper is extremely qualified, making it an essential material. Unfortunately, when you enter the high-end technology of semiconductors below 10/7 nanometers, copper’s performance isn’t as good. However, cobalt is a powerful new material that has a high filling power, resistivity, and reliability. It is particularly useful in the low-end semiconductor technology below 10/7 nanometers.

Cobalt would be widely used in the Semiconductor Field

The advantages cobalt has as a small-scale semiconductor make it possible for the industry to expect that “cobalt”, metal materials, will begin at 7/10 nanometers in order to enter the manufacturing of semiconductor wires. Expect “cobalt” materials to expand beyond the 5-nanometer process. Intel is believed to have revealed that the IEEE will include 10 parts interconnection layers on nanometer technology technology nodes. Details of imported cobalt metal, which can be found in the 10 nm bottom node interconnection of 2 layer imported cobalt, can increase electron mobility and decrease the access of double resistance. It’s a large number of semiconductor manufacturing companies. Tungstenmolybdenummetals (aka. Advanced material by Tungstenmolybdenummetals . With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical materials and manufacturer. High purity, small particles size, and low impurity are the hallmarks of our nano cobalt powder. We can help you if the price is lower.
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Next-Generation Semiconductor Wires: Cobalt The invention of chip/integrated circuit/semiconductor is the premise for human to enter the information society. As the largest manufacturing sector in […]

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Calcium Stearate Emulsion Calcium Stearate Dispersions

About Calcium Stearate Emulsion:
Calcium stearate is an organic compound, molecular formula C36H70CAO4, white powder is insoluble in water, which can be used as waterproof, lubricants, and plastic auxiliary tools. Calcium stearate is calcium carboxylate and is divided into calcium soap. It is some lubricants, surfactants, and components of many foods. This is a white waxy force. The calcium stearate emulsion is a stabilizer and lubricant of polychloroacetic acid, but the stable effect is poor, long-term thermally stable effect is good, and non-toxic food packaging, medical device and other soft film vessels. In polyethylene, polypropylene as a halogen absorber, the catalyst in the resin can eliminate the adverse effects of resin color and stability. It can also be widely used as a lubricant of polyolefin fibers and mold plastic, or a phenolic, amino group such as a phenolic, amino group, and a polyester reinforced plastic moisturizing and release agent, a water repeater of grease, and a water repeater of textiles. Paint flat light, etc. Tungstenmolybdenummetals is a trusted global Calcium Stearate Emulsion supplier. Feel free to send an inquiry about the latest price of Calcium Stearate Emulsion at any time.

Product Performance of Calcium Stearate Emulsion:
Calcium stearate liquid refers to water-based calcium stearate, also known as calcium stearate emulsion, which is widely used in industrial fields. Calcium stearate emulsion has ultra-fine, lubricating and delicate feeling, good thermal denaturation resistance, and good transparency. Good defoaming, excellent dispersibility, anti-settling performance, sandability and yellowing resistance.

Technical Parameter of Calcium Stearate Emulsion:

Product Name     MF      Purity       PH    Particle SizeDensityColor  
Calcium Stearate Emulsion Ca(C17H35COO)2 50%9-12≤ 10um0.8-1.0 g/cm3White


How is Calcium Stearate Emulsion produced?
Preparation of calcium stearate emulsion by saponification synthesis method
Add the CaCl solution and the NaOH solution to the reactor according to the stoichiometric ratio, then add the dispersant, emulsifier A, emulsifying aid and CMC under agitation, and then mix evenly to obtain an emulsion; add stearic acid and catalyst to the emulsion, and keep the temperature constant Stir to obtain a mixed solution; stearic acid and calcium hydroxide react to form calcium stearate, which is uniformly dispersed in the emulsion. Finally, n-octanol and modified polyvinyl alcohol aqueous solution (mass percentage concentration is 10%) are added and stirred to react 0.5- 20s, quickly cooled to room temperature, high-speed shear dispersion for 10-30 minutes to obtain calcium stearate emulsion, and its solid content, viscosity, dispersibility, etc. were analyzed and determined.

Applications of Calcium Stearate Emulsion:
Calcium stearate is mainly used as an acid scavenger, release agent and lubricant in the plastics industry, used for building waterproofing, and used as an anti-caking additive in medicine and cosmetics.
1. Calcium stearate emulsion is the stabilizer and lubricant of polychloroacetic acid, but its stability effect is poor, and its long-term thermal stability effect is still good. Can be used for non-toxic food packaging, medical equipment and other soft film appliances.
2. Calcium stearate emulsion used as halogen adsorbent in polyethylene and polypropylene can eliminate the adverse effect of a residual catalyst in the resin on the color and stability of the resin.
3. Calcium stearate emulsion can also be widely used as a lubricant for polyolefin fibers and molded products.
4. Calcium stearate emulsion can be used as phenolic, amino and other thermosetting plastics, polyester reinforced plastics lubricant and release agent, grease thickening agent.
5. Calcium stearate emulsion can be used as a waterproofing agent for textiles and a smoothing agent for paints.


Packing & Shipping of Calcium Stearate Emulsion:
We have many different kinds of packing which depends on calcium stearate emulsion quantity.
Calcium stearate emulsion packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
Calcium stearate emulsion shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.
Calcium Stearate Emulsion Calcium Stearate Dispersions插图

Calcium Stearate Emulsion Properties

Other NamesN/A
CAS No.N/a
Compound FormulaCa(C17H35COO)2
Molecular WeightN/A
AppearanceWhite Emulsion
Melting Point150-155℃
Boiling PointN/A
Density0.8-1.0 g/cm3
Solubility in H2ON/A
Exact MassN/A

Calcium Stearate Emulsion 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 Calcium Stearate Emulsion:Calcium stearate is an organic compound, molecular formula C36H70CAO4, white powder is insoluble in water, which can be used as waterproof, lubricants, and […]

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LDEA Dodecyl Diethanol Amide CAS 120-40-1

About Dodecyl Diethanol Amide:
Dodecyl Diethanol Amide uses methyl laurate as raw material, low residual ester content, no glycerol, high content of active substances, thickening and foam stability are better than CDEA products. Dodecyl Diethanol Amide is light yellow liquid or solid.

Tungstenmolybdenummetals is a trusted global Dodecyl Diethanol Amide. Feel free to send an inquiry to get the latest price of Dodecyl Diethanol Amide if you would like to buy Dodecyl Diethanol Amide in bulk.

Product Performance of Dodecyl Diethanol Amide:
Dispersed in water, soluble in general organic solvents, with good foaming, stability, thickening, permeability, rust resistance. Good compatibility with other active substances.

Technical Parameter of Dodecyl Diethanol Amide:

Product NameShort nameFree ester (%)pHAppearance
Dodecyl Diethanol AmideS2LEDA39.0-10.0Pale yellow liquid to milky white solid


Applications of Dodecyl Diethanol Amide:
Used as detergent, thickener, foam stabilizer and corrosion inhibitor in printing and dyeing additives.
Used as an antirust agent of copper and iron.
Used for shampoos.
Used as a foam stabilizer and viscosity improver in a light detergent and liquid soap.


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

LDEA Dodecyl Diethanol Amide CAS 120-40-1插图

Dodecyl Diethanol Amide Properties

Other NamesLauramide DEA
CAS No.120-40-1
Compound FormulaC11H23CON(CH2CH2OH)2
Molecular WeightN/A
AppearancePale yellow liquid to milky white solid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Dodecyl Diethanol Amide 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 Dodecyl Diethanol Amide:Dodecyl Diethanol Amide uses methyl laurate as raw material, low residual ester content, no glycerol, high content of active substances, thickening and […]

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Application and Preparation of Stearic Acid Amide

What is Stearic Acid Amide The white emulsion of stearic acids amide can be used to add important ingredients for plastics and other synthetic materials, such as rubber, chemicals, fibers and coatings. Because of its unique chemical structure, it can improve polymer resins’ processing capabilities and to some extent also give products high application performance.

Features and uses of Stearic Acid Amide

Stearic Acid amide is harmless, non-toxic, and not-polluting. This acid is easily dispersed in water. Inks, leather and leather coatings are the main uses of this ink. To improve slip resistance, resistance to abrasion, and anti-blocking. It is also used in textile post processing additives, paper coatings or thermal paper sensitizers.

Prepare Stearic Acid Amide

In order to attain the disperssion effect of water-based water-based steroids acid amide, dispersing and emulsifying agents must be used. Although the water-based stearic acids amide emulsion has good dispersion properties, even with the addition of dispersant and emulsifier, there is still a high possibility that it will precipitate and cause flocculation or stratification. First, add the water-based water-basedstearic Acid amide to water. Then stir for 60 minutes (stirring rate is 2500r/min). Next, add the defoamer (stirring pace is 2500r/min) and then stir for another 40 minutes (stirring frequency is 2500r/min). This will produce an aqueous solution of stearic. This prepared water-based, stearic-acid amide-amide emulsion contains a solid content 41.7% by mass and has a viscosity (146 mPa*S). Then add defoamer and preservative and stir for 40 minutes at 2500r/min. After 30 minutes centrifugation at 20000 r/min is completed. Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical material. Our Stearic acidamide amide Emulsion has high purity, fine particles size and low impurity. We can help you if the purity is lower.
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What is Stearic Acid Amide The white emulsion of stearic acids amide can be used to add important ingredients for plastics and other synthetic materials, […]

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Application and Prospect of Titanium-Aluminum Carbide Max Phase

Products features Research on MAX phases can be traced back as far as the 1960s by Nowotny, et al. It was Nowotny et al. who first introduced the idea of ternary transition metal carbides (or nitrides). Barsoum first referred to the materials as “Mn+1AXn phases” in 2000 (or simply MAX phase). In which M represents the transition metal element and A the primary element. X refers to either C or N.

Titanium-Aluminum Carbide Max phase

In the MAX Phase of tiAL-C, the Al can be quickly diffused and selectively oxygenized. The compact Al2O3 coating will prevent further oxidization. It is possible for the material to self heal at high temperatures due to its microstructure. This property is important to preserve the mechanical properties of the material and increase its reliability. This self-welded Ti3AlC2/Ti2AlC laminates has a much higher fracture strength than those made from single-phase materials.

Potential of Titanium-Aluminum Carbide Max phase

MAX products feature a variety of properties like high damage tolerance and good mechanical, thermal, and other properties. This has attracted much attention in the recent years

Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. Our company is an established global supplier of chemical materials and manufacturer. With over 12 years’ experience, we are able to provide high quality nano materials and chemicals. High quality Ti3AlC2 Max Phase is produced by our company.
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Products features Research on MAX phases can be traced back as far as the 1960s by Nowotny, et al. It was Nowotny et al. who […]

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Metal Alloy High Temperature Inconel718 Alloy Rod

About Metal Alloy High Temperature Inconel718 Alloy Rod:

Chemical composition: 
Ni (50 ~ 55)
Cr (17 ~ 21)
Fe (residual)
Mo (2.8 ~ 3.3)
Nb (4.75 ~ 5.50)
Co (1.0)
C (0.08)
Mn (0.35)
Si (0.35)
S (0.015)
Cu (0.30)
Al (0.20 ~ 0.80)
Ti (0.65 ~ 1.15)  

Technical standard: GB/T14992,GB/T14993

Properties: good comprehensive properties in the temperature range of -253 ~ 700℃, the yield strength below 650℃ ranks first in the deformation superalloy, and has good fatigue resistance, radiation resistance, oxidation resistance, corrosion resistance, and good machining and welding performance.

Applications: Inconel718 Alloy Rod can manufacture various complex shaped parts, and is widely used in aerospace, nuclear energy, petroleum industry and extrusion die in the above temperature range.  

Payment & Transportation:
Metal Alloy High Temperature Inconel718 Alloy Rod插图

Metal Alloy High Temperature Inconel718 Alloy Rod Properties

Other NamesNr-Cr alloy rod/bar
CAS No.N/A
Compound FormulaN/A
Molecular WeightN/A
Appearancerod, bar
Melting PointN/A
Solubility in waterN/A
Density8.2g/cm3
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 High Temperature Inconel718 Alloy Rod 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 High Temperature Inconel718 Alloy Rod:Chemical composition: Ni (50 ~ 55)Cr (17 ~ 21)Fe (residual)Mo (2.8 ~ 3.3)Nb (4.75 ~ 5.50)Co (1.0)C (0.08)Mn (0.35)Si (0.35)S […]

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