polymer with oxirane |

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A non-ionic polymer with oxirane provides dynamic surface tension and wettability. It has defoaming qualities as well as hard surface degreasing.

Polymer containing oxirane The polymer with oxirane has dynamic surface tension properties, excellent wettability properties, defoaming, and hard surface degreasing. It can be easily dispersed, or soluble, in water.
It is a global trusted brand Polymer with Oxirane . Send an inquiry for the latest. Prices of Polymer with Oxirane Buy polymer with oxirane Bulk discounts are available.

Product Performance of Polymer with Oxyrane
LF901 wettability outperforms LF900 in terms of defoaming. LF900 has a better defoaming capability.

Technical Parameters of Polymer with oxirane
Product name Odor pH Cloud point Chroma Appearance
Polymer with Oxirane Characteristic smell 5-8 37-41[E] <=50 Liquid milky white to clear

Applicable Polymer with oxirane :
It is ideal for cleaning metal, CIP, Multi-function Cleaning, High-Pressure Cleaning, etc. It can be used as a low-foaming rinsing agent or detergent, but also for metal cleaning, electroplating cleaning, glass, porcelain, and other hard surface cleaners.

Polymers with oxirane – Packaging and shipping:
There are different types of packing depending on what you want to pack. Polymer with an oxirane volume.
The polymer packing with oxirane: 1kg/bottle. 25kg/barrel. 200kg/barrel.
Shipping of polymer with oxirane Upon receipt of payment, goods can be shipped by air, sea or express.

polymer containing oxirane Property

Alternative Names Oxirane, 2-methyl-, mono(2-propylheptyl) ether
CAS Number N/A
Compound Formula N/A
Molecular Mass N/A
Appearance Liquid milky white to clear
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Quantity N/A

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

A non-ionic polymer with oxirane provides dynamic surface tension and wettability. It has defoaming qualities as well as hard surface degreasing. Polymer containing oxirane The polymer with oxirane has dynamic surface tension properties, excellent wettability properties, defoaming, and hard surface degreasing. It can be easily dispersed, or soluble, in water…. Continue reading

Metal Alloy W-Cu Alloys Custom Size Tungsten Copper Alloy Sheet |

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Tungsten copper alloys are susceptible to defects due to excessive processing or impact when creating sharp corners and thin walls.

About Metal Alloy W-Cu Alloys Custom Size Tungsten Copper Alloy Sheet:

Tungsten Copper Sheet Features:

Copper-tungsten is an alloy that combines the best of copper, tungsten and other metals. This alloy has excellent properties, including high strength and specific gravity.

Tungsten Copper Sheet Application:

1. Electrical comparison material is applied in high hardness materials, and to electrical discharge machining of Pu-chip. The electrical processing products are high-quality, precise, with low losses and a high level of surface finish.


2. Contact materials include arc contacts, vacuum contacts (high and medium voltage switches), circuit board welding, and electrical contact points.


3. Welding Materials: Submerged arc welders, Gas shielded Welding Machine Tip, Radio Resistance Factory (production carbon film resistance and metal coating resistance), resistance butt-welding machine butt-welding material (copper tungsten alloy welding disc).


4. Guide material: any type of steel wire rolled, used for guiding and protecting the material

Tungsten Copper Sheet Processing Precautions
1. Cutting
Tungsten copper alloys can become defective when sharp corners or thin wall are made. This is due to excessive processing loads and impact. When tungsten-copper-silver-tungsten alloy products are drilled through holes, please pay attention to the feed load force when the through holes are about to be drilled to avoid machining defects.
Tungsten copper is not magnetized. Before using the product, make sure that it has been firmly fixed.
2. Electric discharge machining, wire cutting
The wire cutting speed and the discharge rate of products made from tungsten, tungsten silver, and copper tungsten is relatively slow. This is a common phenomenon.

Technica data for Tungsten Copper alloy Sheet:

The following content is available: 90W/ 10Cu 85W/ 15Cu 80W/ 20Cu 75W/ 25Cu 70W/ 30Cu 60W/ 40Cu 50W/ 50Cu
Density 16.75 15.9 15.15 14.5 13.85 13.15 11.85

This is a list of items that you can purchase. Surface Thickness Width Length
The following are some of the ways to get in touch with each other: Tolerance
W-Cu Alloy Steel Grind >=1.5-70 +-0.05 <=200 <=500




Payments & Transport:

Metal Alloy W-Cu Alloys Custom Size Tungsten Copper Alloy Sheet Properties

Alternative Names Tungsten Copper Alloy Sheet
CAS Number N/A
Compound Formula W-Cu
Molecular Mass N/A
Appearance Plate
Melting Point N/A
Solubility N/A
Density NA
Purity N/A
Size As required
Bolding Point N/A
Specific Heating N/A
Thermal Conduction N/A
Thermal Expander N/A
Young’s Module N/A
Exact Mass N/A
Monoisotopic Mash N/A

Metal Alloy W-Cu Alloys Custom Size Tungsten Copper Alloy Sheet Health & Safety Information

Safety Advisory N/A
Hazard Statements N/A
Flashing point N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
RTECS Number N/A
Transport Information N/A
WGK Germany N/A

Tungsten copper alloys are susceptible to defects due to excessive processing or impact when creating sharp corners and thin walls. About Metal Alloy W-Cu Alloys Custom Size Tungsten Copper Alloy Sheet: Tungsten Copper Sheet Features: Copper-tungsten is an alloy that combines the best of copper, tungsten and other metals. This… Continue reading

How many chemical additives are in concrete today

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Concrete is a modern material that uses a variety of chemical additives, each with their own unique characteristics. These additives play an important part in ensuring construction quality and improving the performance of concrete. Here are a few chemical additives that have many benefits.

Cement Water Reducing Agent

It can be used to improve the strength of the concrete, reduce the amount cement and maintain the fluidity. Cement-water-reducing agents can be classified as conventional or high-performance. A conventional type of cement water-reducing agent is used in ordinary concrete. High-performance types are designed for special concrete projects, like high-strength and self-compacting.

Retarder

Retarders can reduce the time it takes for concrete to set and increase the flexibility of the construction process. Retarders can control the concrete setting speed to ensure smooth progress in large-scale projects due to the long construction times.

Early Strengthening Agent

Early-strengthening compounds accelerate the concrete hardening process, allowing for a rapid increase in strength. It is especially useful in projects which need to be completed quickly or put to use as soon a possible. Early-strength agent can help improve the progress of the project and shorten construction time.

Waterproofing agent

Waterproofing agents are used to improve the strength of concrete and prevent water penetration. Waterproofing agent can be divided in two categories: surface waterproofing agent and deep waterproofing agent. Choose the waterproofing agent that best suits your specific needs.

Concrete is a modern material that uses a variety of chemical additives, each with their own unique characteristics. These additives play an important part in ensuring construction quality and improving the performance of concrete. Here are a few chemical additives that have many benefits. Cement Water Reducing Agent It can… Continue reading

N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0

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White or off-white powder. Insoluble in oil, water and many organic solvents. Solvable in strong acids and alkalis.

N-Lauroyl L lysine Laruoyl Lysine (CAS 52315-75-0): White or off-white powder insoluble in oil, water and most organic solvants, but soluble in strong alkali and acid solutions
It is a global trusted brand N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 . Send an inquiry for the latest. Prices of N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0, You can buy if you want to N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 Bulk discounts are available.

Product Performance of N-L————— ——————————l——–
White or off-white powder. Insoluble in oil, water and many organic solvents. Solvable in strong acids and alkalis.

Technical Parameter of N -Lauroyl -L-lysine Laruoyl Lysine, CAS 52315-75-0
Product Code Shortname Effective substances content PH Odor Appearance
N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 LL N/A N/A A slight characteristic smell white powder

Applications N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0: It is widely used as a powder in cosmetics such as foundation, lipsticks eye cosmetics, powder, creams, lotions, sunscreens, and hair care products.

Packing & Shipping N – Lauroyl-L – Lysine Laruoyl Lysine CAS:
We offer a variety of packing depending on what you need. N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 quantity.
N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 packing: 1kg/bottle. 25kg/barrel. 200kg/barrel.
N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 shipping: Once payment has been received, goods can be sent by sea, air or express as soon a possible.

N-Lauroyl-L-lysine Laruoyl Lysine CAS 52315-75-0 Properties

Alternative Names N/A
CAS Number 52315-75-0
Compound Formula N/A
Molecular Mass N/A
Appearance NA
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Health & Safety Information N – Lauroyl-L lysine Laruoyl-L-lysine CAS52315-75-0

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

White or off-white powder. Insoluble in oil, water and many organic solvents. Solvable in strong acids and alkalis. N-Lauroyl L lysine Laruoyl Lysine (CAS 52315-75-0): White or off-white powder insoluble in oil, water and most organic solvants, but soluble in strong alkali and acid solutions It is a global trusted… Continue reading

Applications of Nickel-based Alloy Rod

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Nickel alloy rod contains nickel as its main alloying element, as well as other elements like iron, chrome, and molybdenum. Nickel-based alloys are more resistant to corrosion and stable at high temperatures than conventional iron alloys. This makes them popular in many industrial and engineering applications.

Petrochemical Industry

Nickel-based rods have become a common material in the petrochemical industries. In petroleum cracking, nickel-based rods are used for reactor manufacturing. They can withstand high pressure and temperature conditions and offer good corrosion resistance. Nickel-based rods can also be used for manufacturing equipment like pipelines and containers during petrochemical processes.

In the petrochemical industries, nickel-based rods are used primarily to manufacture high temperature and high pressure reactors, heat-exchangers, towers. It is essential to select materials with high resistance to corrosion, as well as high temperature stability, when working in environments that have high temperatures, pressures, and corrosive medium. Nickel-based rods are a material that has excellent properties, and is used to manufacture petrochemical machinery.

Nuclear Industry

The nuclear industry can use nickel-based alloys rods as manufacturing material for nuclear reactors. These rods are characterized by excellent corrosion resistance and high temperature stability. The nickel-based rods, with their excellent high-temperature stability and corrosion resistance, can be used as structural materials or shells for nuclear fuel component components.

In nuclear reactors nickel-based alloys rods are used primarily to manufacture fuel components. These components have to be able work in environments with high temperature, high pressure, and radioactivity. These components must be highly resistant to corrosion and high temperature. These rods are made of nickel-based alloys and have become a preferred material for the manufacture of nuclear fuel elements.

Aerospace field

Nickel-based alloys rods are used primarily in aerospace to make key components such as aviation engines and rocket motors. Nickel-based materials are used in aerospace because of their high-temperature resistance and excellent stability.

Nickel-based alloys rods are used primarily in aviation engines to make turbine discs and blades. They also serve as guide vanes. These components have to be able to withstand high temperatures, pressures and speeds. These components must have excellent high temperature strength, creep strength, corrosion resistance. Nickel-based alloys rods possess these properties, and are therefore one of aviation engine manufacture’s preferred materials.

Automotive Manufacturing sector

Nickel-based alloys rods can be used in the manufacture of high-performance automobile components. For example, nickel-based rods in the engine block and cylinderhead can increase their corrosion resistance, and improve high-temperature stabilty, improving the overall safety and performance of the vehicle.

Nickel-based rods are mainly used in the automotive industry to make key engine components, such as cylinders, cylinder heads and pistons. Materials with high strength and corrosion resistance are needed for these components, which will be working in high-pressure and high-temperature environments. These alloys are made of nickel and have become a popular material for engine manufacture.

Medical device field

Medical devices can benefit from the biocompatibility of nickel-based alloys and their corrosion resistance. This ensures safety and reliability.

Medical devices is a broad field that includes a variety of medical devices including surgical instruments, implant, diagnostic equipment, rehabilitation materials, etc. Nickel-based rods are used for the manufacture of medical devices with high precision and quality. In surgical instruments, for example, surgical forceps, knives, and other surgical tools made from nickel-based rods, have an excellent hardness. These rods also provide excellent durability and cutting performance. Orthopedic and cardiovascular implants made with nickel-based rods are biocompatible and have excellent mechanical properties. They can treat various orthopedic or cardiovascular diseases.

Other fields

Nickel-based alloys rods can be used for a variety of applications, including construction, power and electronics. Nickel-based rods are used in power transmission and structural support for high-rise building. They can also provide outstanding strength and durability. Nickel-based rods are useful for manufacturing key components in the electronics sector, such as circuit boards and materials to shield electromagnetic fields.

About KMPASS

KMPASS is a global chemical supplier & manufacturer that has over 12 year experience in providing high-quality Nanomaterials and chemicals. The company export to many countries, such as USA, Canada, Europe, UAE, South Africa, Tanzania,Kenya,Egypt,Nigeria,Cameroon,Uganda,Turkey,Mexico,Azerbaijan,Belgium,Cyprus,Czech Republic, Brazil, Chile, Argentina, Dubai, Japan, Korea, Vietnam, Thailand, Malaysia, Indonesia, Australia,Germany, France, Italy, Portugal etc. KMPASS, a leading manufacturer of nanotechnology products, dominates the market. Our expert team offers solutions to increase the efficiency of different industries, create value and overcome various challenges. Send an email to Sales2@nanotrun.com for Inconel powder.

Nickel alloy rod contains nickel as its main alloying element, as well as other elements like iron, chrome, and molybdenum. Nickel-based alloys are more resistant to corrosion and stable at high temperatures than conventional iron alloys. This makes them popular in many industrial and engineering applications. Petrochemical Industry Nickel-based rods… Continue reading

Dipropylene glycol methyl ether CAS 34590-94-8 |

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Dipropylene Glycol Methyl Ether is miscible in water and other organic solvents. This solvent is used primarily as a brake oil component, but also as a dye and coating solvent.

Dipropylene Glycol Methyl Ether: It is an organic compound with the formula C7H16O3. It can be miscible both in water and with a wide range of organic solvents. The hydration of dipropylene glycol to produce 1, 2-propylene oxyde is followed by the reaction with methanol. It is mainly used as a paint, dye or brake oil component solvent.
It is a global trusted brand Dipropylene glycol methyl ether . Send an inquiry for the latest. Prices of Dipropylene glycol methyl ether. Dipropylene glycol and methyl ether is available for purchase. Bulk discounts are available.

Dipropylene glycol and methyl ether Product Performance:
The dipropylene methyl ether is low in toxicity and has a low surface tension. It also has a moderate evaporation, and good dissolution. It can mix with water and can dissolve oil and natural resins, rubber, and other polymer compound.

Technical Parameters of Dipropylene glycol Methyl Ether:
Product name Appearance
Dipropylene glycol methyl ether Colorless transparent liquid

Applicable Dipropylene glycol methyl ether :
Dipropylene methyl ether is used as a coupling for water-based diluents coatings (often combined), an active solvent for coatings that are water-based, a household and industrial cleaning agent, lubricant and paint removers, metal cleaners and sizing agents for solvent-based screen-printing inks. It is also used as a coupling of VAT dye fabric.

Dipropylene glycol methyl ether Packing & Shipping:
We offer a variety of packing depending on what you need. Dipropylene glycol methyl ether quantity.
Dipropylene glycol methyl ether packing: 1kg/bottle. 25kg/barrel. 200kg/barrel.
Dipropylene glycol methyl ether shipping: Once payment has been received, goods can be shipped by air, sea or express.

Dipropylene glycol methyl ether Properties

Alternative Names N/A
CAS Number 34590-94-8
Compound Formula

C7H16O3

Molecular Mass 148.2
Appearance Colorless transparent liquid
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Dipropylene methyl ether 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

Dipropylene Glycol Methyl Ether is miscible in water and other organic solvents. This solvent is used primarily as a brake oil component, but also as a dye and coating solvent. Dipropylene Glycol Methyl Ether: It is an organic compound with the formula C7H16O3. It can be miscible both in water… Continue reading

Application Fields of Tungsten Rods

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Tungsten Rods Application Fields

The tungsten bar is a rod shaped material, which has advantages like high density and good thermal conductivity. It also resists corrosion. It is widely employed in the manufacture of high-temperature heaters and precision components. Here is a comprehensive introduction to the uses of tungsten in various fields.

Industrial sector

In the industrial sector, tungsten is widely used to make high-temperature heating devices, high temperature pipelines, and chemical equipment.

High-temperature Heating Equipment

tungsten rods are used as heating elements in high-temperature heaters. They have excellent thermal conduction, high melting temperatures and can be stable for a long period of time. The tungsten rods used in high temperature heating equipment, such as electric heaters, laser printers and induction furnaces can provide heat at high temperatures.

High-temperature pipeline

Tungsten rods are used to manufacture high-temperature pipework because of their excellent corrosion resistance. For high-temperature pipe manufacturing, tungsten is used in the steel, ceramic, chemical and steel industries. These pipes can withstand high temperature and chemical corrosion. This ensures stability and safety in production.

Chemical equipment

High density makes tungsten rods ideal for chemical equipment manufacturing. Tungsten is used to make reaction vessels and storage containers for highly corrosive chemicals like sulfuric acid. These devices can resist corrosion from chemicals and increase the efficiency of chemical production.

Construction field

Using tungsten rods for architectural support and decoration is possible.

Structural Support

They are suitable for supporting large building structures because of their high density, high strength and resistance to corrosion. Tungsten Rods are used in the support of large structures, such as high-rises and bridges. These structures are designed to support heavy loads, which ensures the stability and security of buildings.

You can also decorate your home by using this

Tungsten Rods are available in a variety of colors and textures, making them perfect for the decoration of high-end structures. Tungsten rods serve as decorative materials in hotels, theaters and other places. They are used for railings, staircase handrails and other things. These decorative materials can give a building a noble feel and increase its artistic value.

Medical field

The non-radioactive and non-toxic properties of tungsten make them ideal for the manufacture of medical instruments, implants and orthotics.

Surgical Instruments

The non-toxic, non-radioactive properties of tungsten rods make them ideal for the manufacture of surgical instruments. Tungsten rods can be used in the manufacturing of surgical instruments, such as forceps and scalpels. The instruments must be disinfected at high temperatures and under pressure. Tungsten has excellent corrosion resistance, high temperature stability and can withstand these conditions.

Implants and orthotics

Also, tungsten rods are used to make medical devices including implants and orthotics. Tungsten Rods are used in the manufacture of orthotics and implant materials, such as artificial joint, fracture fixators, dental braces, and dental brackets. Having a material that is biocompatible and corrosion resistant, such as tungsten rods, makes it ideal for medical devices.

Other fields

Besides the fields mentioned above, tungsten rods can also be used in:

Laboratory equipment and Diagnostic Equipment

Materials for high-level laboratory and diagnostic devices are made of tungsten. Those equipment and devices need to be high-precision and corrosion resistant, and tungsten has excellent chemical and physical properties that meet those requirements.

High-precision components

High-precision components can be manufactured using tungsten rods due to their high density, high melting points, and good processing properties. Tungsten is used in manufacturing high-precision components for the electronics industry, precision machines, and many other fields. Tungsten rods can be used to manufacture components that are high-precision and stable.

Weapons and ammunition

Due to their high density and toughness, tungsten rods are ideal for making weapons and ammunition. tungsten rods can be used to manufacture warheads for ammunition like armor-piercing rounds and kinetic bombs. These weapons need high energy and penetration, and tungsten is a material that can fulfill these needs.

Nuclear Industry

In the nuclear sector, tungsten bars are suitable for the treatment and storage of nuclear waste due to their high temperature resistance, high density and corrosion resistance. Tungsten is used to create reflective layers and as a structural layer in nuclear waste treatment reactors. These structures and equipment need to be corrosion resistant and have high temperatures. Tungsten can provide these characteristics.

RBOSCHCO

RBOSCHCO, a global supplier and manufacturer of high-quality nanomaterials and chemicals with more than 12 years’ experience. The company export to many countries, such as USA, Canada, Europe, UAE, South Africa, Tanzania,Kenya,Egypt,Nigeria,Cameroon,Uganda,Turkey,Mexico,Azerbaijan,Belgium,Cyprus,Czech Republic, Brazil, Chile, Argentina, Dubai, Japan, Korea, Vietnam, Thailand, Malaysia, Indonesia, Australia,Germany, France, Italy, Portugal etc. KMPASS, a leader of nanotechnology manufacturing, dominates the market. Our expert team offers solutions that can improve the efficiency of different industries, add value and help them overcome various challenges. If you want to find out more about tungsten rods Send an email at: sales1@rboschco.com

Tungsten Rods Application Fields The tungsten bar is a rod shaped material, which has advantages like high density and good thermal conductivity. It also resists corrosion. It is widely employed in the manufacture of high-temperature heaters and precision components. Here is a comprehensive introduction to the uses of tungsten in… Continue reading

High Purity Copper Powder Cu Powder CAS 7440-50-8, 99% |

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Copper powder can be used for a wide range of applications, including powder metallurgy. Purity>99.9%
Particle size : 50nm

About copper powder Cu Powder:
The application of copper in metallurgy has been very broad. Aluminum is the second most popular metal for toning metallurgy. Nano-copper Powder is highly thermally conductive, has high activity and self-lubricity. This makes it an ideal material for many applications, including electrical, mechanical, chemistry, etc. This is due to the unique characteristics of nanocopper powder, including surface interfaces effects, quantum dimensional effects and quantum tunnels. Copper Powder is highly active, and so it oxidizes in air. It’s also soluble in thermal sulfuric or nitric acid. Copper nanoparticles is used today as a catalyst, lubricants and conductive coatings. It’s also used extensively in engineering structural material, aerospace, and biological engineering.

Copper is used widely due to its thermal and electrical conductivity. The copper metal powdercan either be used as a wire or can be combined with other metals for different alloys. Tin is used to make bronze. As the outer layer of copper is exposed to oxygen, it slowly oxidizes and becomes black copper oxide. Copper can be converted into copper oxide, copper carbonate and copper coatings depending on conditions.

pure powder copper supplier. We supply Ultrafine Copper Powder Satisfactory Copper Powder Copper powder 99.999 and Powder Coated Copper.
Please send us an email to receive the most recent copper price. If you’d like to buy copper powder in bulk, please feel free to do so.

Product performance for copper powder Cu powder:

Cu powder CAS 7440-50-8 High-purity, uniform particle size, and easy dispersing use.

How Copper Powder Cu Powder are produced?
At the moment, there are a number of methods to make nano-copper, which can be categorized into chemical and physical methods.
There are two methods for preparing copper powder by physics:
1.Atomization technique
The main purpose of the atomization process is to break down the liquid metal copper using high-speed wind, creating a fine droplet, and then solidifying it into powder. This has become the primary development trend in the production of copper powder. The atomization technique has low production costs and little environmental pollution.
2. Mechanical ball mill
To prepare copper powder, the mechanical ball-milling method is used widely. The ball mill’s mechanism is primarily collisions between metal balls and rolling, which results in a strong deformation. This method is easy to use, has a high yield and is low-cost. However, it can be prone impurities, and the size of the powder is not uniform.
3. Gas evaporation method
The gas evaporation process is designed to cool down the condensation by reacting with the energetic atmosphere. Or, it can cool and condense through collisions with an inert environment. The copper powder produced by this method is characterized by a controlled particle size and shape, as well as high purity and crystallinity.
Preparation by chemical means of copper powder:
1.Electrodeposition technique
To obtain copper powder, the electrodeposition technique involves electrochemically forming copper ions on the cathode. This method plays a crucial role in the production of metal powder. Currently, there are three types of electrodeposition methods for metal powder: DC, pulse, and composite total deposit. Electrolysis can be used for scale production. The electrolysis parameters can be easily changed to optimize particle size and morphology of electrolytic copper.
2. Liquid phase reduction method
The liquid phase method is the most popular method of preparing metal nanomaterials. The reduction of metal cation under the influence of the reducing agents is the basic principle to produce metal powders at micron or nanoscale by controlling different process parameters. body.
3. Vapor deposition method
The vapor-deposition method involves reacting one gas with another to form ultrafine powders using plasma, lasers, or similar methods. Vapor deposition is a method for preparing a wide range of powders. These include metals, alloys, oxides and sulfides.
4. Sol-gel method
Sol-gel method is mostly by hydrolyzing metal ionic organic compounds or inorganic compounds to form a gel, which then dried, ground and calcined following solidification.

Copper Powder Cu Powder ______
Due to the wide range of applications of metal copper, its consumption and production capacity is second only after aluminum in the metallurgy for toned metallurgy. Nano-copper powder has a high level of activity and is self-lubricating. This makes it a valuable material in many fields, including electrical, mechanics and chemistry. The nano-copper’s unique characteristics: the surface interfaces effects, quantum dimensions effect, and quantum tunnels effect are responsible for this. Copper powder, which is macroscopic in size, has a very high activity. This means that it oxidizes easily in air. It’s also soluble with thermal sulfuric and nitric acitcs. The nano-copper particles are used for a variety of purposes, including lubricants and conductive coatings. They’re also used widely in aerospace, biological engineering, engineering structural materials and conductive coatings.

Copper is very durable, ductile and widely used for its thermal conductivity. Copper can be used as wires, or mixed with other metals to make different alloys. Bronze is created by combining tin with copper. As the outer layer of copper is exposed to oxygen, it slowly oxidizes and becomes black copper oxide. Copper can be converted into copper oxide, copper carbonate and copper coatings depending on conditions.

Conditions for storage of copper powder, Cu powder:

According to normal goods transportation, this product should not be exposed to air and should be stored in a dry, cool, and sealed environment.

Packaging & Shipping Copper Powder Cu Powder:
There are many different types of packing depending on the quantity of copper powder.
Copper powder cu powder packaging: vacuum packed, 100g,500g or 1kg/bag; 25kg/barrel.
Copper powder Cu Powder shipping: can it be shipped by air or sea?


Technology Co. Ltd., () is an established global chemical supplier and manufacturer, with over 12 years’ experience in providing high-quality nanomaterials. These include boride powders, nitride particles, graphite particles, sulfide particles, 3D printing materials, etc.
Contact us to send an inquiry if you are interested in high-quality Ultra fine Copper Powder. (brad@ihpa.net)

Copper Cu Powder Properties

Alternative Names Copper powder (Cu powder), Nano Copper Powder, ultrafine copper,
Nano Cu powder.
CAS Number 7440-50-8
Compound Formula It is a good idea to use
Molecular Mass 63.55
Appearance Reddish Metal Powder
Melting Point 1085 degC
Solubility N/A
Density 2533 kg/m3
Purity 99.5-99.9%
Particle Size 10-30nm
Bold point 2562 degC
Specific Heating N/A
Thermal Conduction N/A
Thermal Expander N/A
Young’s Module N/A
Exact Count 59.9668 g/mol
Monoisotopic Mash Da

Copper Cu Powder Health & Safety Information

Safety Advisory Danger
Hazard Statements H228-H400
Flashing point Not applicable
Hazard Codes The following are some of the most effective ways to increase your chances of success:
Risk Codes 11
Safety Declarations 16
RTECS Number GL5325000
Transport Information UN 3089 4.1/PG 2,
WGK Germany 3

Copper powder can be used for a wide range of applications, including powder metallurgy. Purity>99.9% Particle size : 50nm About copper powder Cu Powder: The application of copper in metallurgy has been very broad. Aluminum is the second most popular metal for toning metallurgy. Nano-copper Powder is highly thermally conductive,… Continue reading

Foaming Agent for Lightweight Concrete

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The foaming concrete agent is an admixture which can be used to produce foamed concrete by reducing the surface tension.

Concrete foaming agents:

Cement foaming admixture also known by foaming admixture for lightweight concrete or concrete diluent is a substance that reduces the surface tension of a liquid to produce emulsion. A foaming agent can be defined as a substance that causes its aqueous liquid to generate large amounts of foam upon the introduction of mechanical force into the atmosphere. A surfactant, or surface-active substance, is what this substance is. The surface activity of the foaming agent defines its essence.

Data for concrete foaming agents:

The following are examples of Parameters
Appearance Transparent liquid
Solid content 20%
Usage (kg/m3) 0.75-1.25
Foaming multiple >=30
Bleeding rate (ml). 27
Storage Method Keep in a cool and dark place to avoid high temperatures or freezing.

Application: Concrete foaming agent

Foaming agents are mainly used to produce foam concrete, thermal insulation layer on roofs and floor heating concrete thermal layer, sound insulation foam concrete, and thermal cushion.
Foaming agents can foam concrete, lime, stone, fly ash powder, sand, and other raw material to make slats or partition boards. CLC bricks are also available.


Foam cement production process:
1. Weigh the foaming agents, then add 30 x water to dilute them to produce a foaming fluid;
2. Pour the cement, the sand, the stones and the slurry into the mixer, in order.
3. The foam maker will convert the foaming liquid to foam.
4. Mix the foam evenly in the horizontal mixer by adding it according to the predetermined quantity.
5. The foaming slurry is ready to be sent into the molding machine.

CLC foaming agent advantages:

High foaming rate

The foam is fine, stable

Low bleeding

The cement has good adhesion.

Package containing concrete foaming agents:

25 kg/barrel, 200 kg/barrel.

Suppliers for concrete foaming agents:

The global leader in Low Density Cellular Concretes (LDCC), Celluar Light Concretes (CLC) as well as advanced engineered foams. Since early 2012, we’ve been providing engineered solutions for foam.

The foaming concrete agent is an admixture which can be used to produce foamed concrete by reducing the surface tension. Concrete foaming agents: Cement foaming admixture also known by foaming admixture for lightweight concrete or concrete diluent is a substance that reduces the surface tension of a liquid to produce… Continue reading

3A Molecular Sieve Powder |

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3A molecular sieve powder is prepared from the NaA molecular sieve powder exchanged by K+, which is the hydrate of crystalline silicon aluminate metal salt. The 3A molecular sieve powder has the characteristics of stable quality, uniform particle size and

About 3A Molecular Sieve Powder:
3A molecular sieve powder is prepared from the NaA molecular sieve powder exchanged by K+, which is the hydrate of crystalline silicon aluminate metal salt. The 3A molecular sieve powder has the characteristics of stable quality, uniform particle size and high crystallinity.

is a trusted global supplier of 3 A Molecular Sieve Powder . We can produce different K+ content powder according to customer requirements. Feel free to send an inquiry to get the latest price , if you would like to buy in bulk.

Technical Parameter of 3 A Molecular Sieve Powder: Unit 3A-45 Powder 3A-5-AG Powder 3A-5-45 Powder 3A-AG Powder 3A-60 Powder 3A-D-38 Powder Static H2O Adsorption % >= 25.5 >= 25.5 >= 25.5 >= 25.5 >= 23.5 >= 25.5 Package Moisture % <= 21 <= 21 <= 21 <= 21 <= 21 <= 21 pH-value <= 10.7 <= 10.8 <= 10.8 <= 10.7 <= 10.7 <= 10.7 Bulk Density g/ml 0.76+-0.03 0.69+-0.03 0.69+-0.03 0.76+-0.03 0.78+-0.03 0.81+-0.03 Screen Residual % <= 0.8 <= 0.8 <= 0.8 <= 0.8 <= 0.8 <= 0.8 CI-ion % <= 0.1 <= 0.1 <= 0.1 <= 0.1 <= 0.1 <= 0.1 Exchange Degree % >= 45 >= 40 >= 45 >= 40 >= 60 >= 40
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Applications of 3 A Molecular Sieve Powder: 3A molecular sieve powder by adding binder forming processing, can be widely used in unsaturated olefin drying, such as cracking gas, ethylene, acetylene drying; Drying of polar liquid, such as methanol, ethanol, etc. Drying of insulating glass and cracking N2-H2 mixture.



3A Molecular Sieve Powder Properties

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3A Molecular Sieve Powder Health & Safety Information

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3A molecular sieve powder is prepared from the NaA molecular sieve powder exchanged by K+, which is the hydrate of crystalline silicon aluminate metal salt. The 3A molecular sieve powder has the characteristics of stable quality, uniform particle size and About 3A Molecular Sieve Powder: 3A molecular sieve powder is… Continue reading