sodium

Sodium Diethylhexyl Sulfosuccinate CAS 1639-66-3

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About Sodium diethylhexyl sulfosuccinate:
Sodium diethylhexyl sulfosuccinate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and good biodegradability.
Rmcplant is a trusted global Sodium diethylhexyl sulfosuccinate. Feel free to send an inquiry to get the latest price of Sodium diethylhexyl sulfosuccinate if you would like to buy Sodium diethylhexyl sulfosuccinate in bulk.

Product Performance of Sodium diethylhexyl sulfosuccinate:
Sodium diethylhexyl sulfosuccinate can improve the combability and softness of the hair, and its mild decontamination performance makes the skin comfortable after washing.

Technical Parameter of Sodium diethylhexyl sulfosuccinate:

Product Name    Short NameEffective substance content    PH    OdorAppearance  
Sodium diethylhexyl sulfosuccinateNA45%5-7Slight characteristic odorColorless to light yellow liquid


Applications of Sodium diethylhexyl sulfosuccinate:

The penetration is fast and uniform, with good wetting, penetration, emulsification and foaming properties. Not resistant to strong acids, strong bases, high temperatures, heavy metal salts and reducing agents. It is used to treat cotton, linen, viscose and their blended products. The treated fabric can be bleached or dyed directly without scouring, which can improve dyeing defects caused by dead cotton, and the printed and dyed fabric feels softer and fuller. When scouring and bleaching the green body, the slurry is best to be decontaminated first to ensure the penetration effect.

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

Sodium Diethylhexyl Sulfosuccinate CAS 1639-66-3插图

Sodium Diethylhexyl Sulfosuccinate Properties

Other NamesN/A
CAS No.1639-66-3
Compound FormulaC20H36O7SNa
Molecular WeightN/A
AppearanceNA
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Sodium Diethylhexyl Sulfosuccinate 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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Sodium Nitrate Liquid

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sodium nitrate liquid is a water-soluble salt that can be used as a preservative for foods. It also helps cured meats to retain their color and dehydrates harmful bacteria.

Among other uses, it is a component of rocket propellants and gunpowder. It is often called “white gold.”

In 19th-century wars, the South American country of Chile fought against Bolivia and Peru to gain territory in the Atacama Desert, which was rich in sodium nitrate. Until the 1940s, this was a natural compound that could only be mined by hand, but in the 20th century, it became a synthetic chemical made by converting ammonia from the atmosphere on an industrial scale.

Sodium nitrate has several uses, but it is most commonly used as a fertilizer. Nitrogen is important to plants as it allows them to produce fruit and flowers. Sodium nitrate fertilizers supply nitrogen quickly to the plant roots, preventing it from escaping. The nitrate also prevents soil erosion by retaining moisture in the soil. Unlike potassium nitrate, which can be toxic to plants, sodium nitrate is not likely to damage the roots of a plant. However, there are concerns that too much nitrogen applied to a plant can lead to stunted growth. Therefore, the amount of nitrogen used should be limited. Using organic agriculture techniques, a small amount of nitrogen-containing fertilizers is acceptable as the risk of adverse effects on plants is minimal.

Chemical Properties of Sodium Chloride (NaCl)

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Sodium chloride (NaCl) is an ionic compound. It is an important component in saline solutions and is used for a variety of medical purposes including to treat sweating, to clean wounds, and to clear sinuses.

NaCl has many chemical properties that make it useful as a medical substance and in the manufacturing of drug products. It is a common ingredient in the production of saline solutions and has been used as a lubricant and diluent in capsules, direct-compression tablet formulations, and to control drug release from microcapsules.

It has a high melting point and is a good conductor of electricity in its aqueous state. It is a common ingredient in road salts for use during winter. It is also used for the preparation of isotonic saline solution, which is the most commonly prescribed type of saline.

Chemical properties

The ionic form of a metal or non-metal is usually determined by whether it gains or loses an electron from the outer shell to form a positive or negative charge. Sodium and other group I metals tend to lose an electron to form the Na+ ion, while non-metals gain an electron to form the Cl- ion.

This reaction is called an ionic bond. Sodium and chloride have a strong ionic bond because they both lose electrons to form the Na+ ion.

Sodium and chloride ions have a cubic lattice structure that is closely coordinated. Each Na+ ion is surrounded by six Cl- ions. This makes it possible for NaCl to have a radius of 0.52, meaning that the center of the crystal is exactly in the middle of an octahedron. This is the reason for its crystalline appearance and why it is so important in saline solutions.

Application scope of instant sodium silicate

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What is sodium silicate and
Sodium silicate is a liquid alkali-metal silicate material that contains alkali oxides and silicon. More than 50 deep-processed sodium silicate products are available in economically advanced countries. Some of them have been used in high tech, precision, and cutting-edge areas.


Application areas of sodium silicate
1. You can paint the surface to increase its resistance to weather. You can increase the strength, compactness, flexibility, resistance to frost, and weather resistance of porous materials, such as clay bricks and cement concrete.
2. Reinforce the soil. Water glass and calcium chloride solution can be alternately injected under pressure into the soil. The resulting silic acid gel solidifies in humid conditions due to the swelling status of the soil-absorbed water.
3. Use a waterproofing agent that is quick-setting.
4. Cracks in brick walls can be repaired. You can mix water glass, granulated blast oven slag powders, sand, and sodium fluorosilicate to a desired proportion. These can then be pressed directly into the brick wall cracks, which can act as bonding or reinforcement.
5. As an outer surface for fire doors, sodium silicate solution can be used.
6. It can be used for the manufacture of acid-resistant cement to encapsulate furnace linings.
7. It is used to produce silicate products in the chemical industry, such as silica gel.
8. It is used as a raw material in light industry for detergents, such as soap and washing powder.
9. Dyeing auxiliaries for the textile industry, including bleaching and sizing.

Tech Co., Ltd. is a professional supplier boride powder. We have over 12 years of experience in chemical products development and research. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
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Sodium Myristate CAS 822-12-8

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Product name: sodium  myristate

Molecular formula: CH3(CH2)12COONa

Properties of Sodium Myristate:
Sodium myristate (CAS 822-12-8) is fine white crystal powder; soluble in hot water and hot ethyl alcohol; lightly soluble in an organic solvents, such as ethyl alcohol and ether;


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About Sodium Myristate:
Sodium myristate is a chemical listed as CAS 822-12-8. The chemical formula is C13H27COONA, soluble in water and some organic solvents. Myristic acid is found in the seeds of the tropical tree nutmeg. It is a saturated fatty acid in the long-chain fatty acid subgroup. It is found in most animal and vegetable fats and oils in the form of glycerides. It is found mainly in milk fat. Myristic acid, a form of hypercholesterolemia, raised LDL and HDL cholesterol levels in healthy subjects compared to oleic acid. Myristic acid delays gastric emptying. It may trigger the release of one or more hormones that delay gastric emptying. It is used as an ingredient in soaps, cosmetics and shaving creams, usually in the form of isopropyl myristic acid. It is safe as a cosmetic ingredient in current use and concentration practices. Is sodium myristate natural? It is often called a sodium salt from stearic acid, a naturally occurring fatty acid. Sodium myristate – a fatty acid that is part of a more complex group of natural lipids. Rmcplant is a trusted global Sodium Myristate supplier. Feel free to send an inquiry about the latest price of Sodium Myristate at any time.
 

How is Sodium Myristate Produced?
Sodium Myristate– an emulsifier, hardener and surfactant; the sodium salt of myristic acid, created when the lye reacts with myristic acid. Coconut oil and palm oil are two great sources of myristic acid.
 
Applications of Sodium Myristate:
Sodium myristate is a white or light yellow paste. It is often saponified with sodium laurate and used together. It is the main ingredient of soap. It is also used in the preparation of textile auxiliaries. The main role of myristic sodium in cosmetics and skin care products is a surfactant, detergent and emulsifier. The risk coefficient is 2, which is relatively safe and can be used at ease. It has no effect on pregnant women generally, and myristic sodium is not acne-causing.

Sodium myristate has good emulsifying property, can be dissolved in water or ethanol, often with sodium laurate saponification preparation, use together, is the main component of soap, has a good cleaning effect.
 

Technical Data of Sodium Myristate:

Testing item

Testing standard

appearance

white fine powder

acid value

244-248

iodine value

≤4.0

loss on drying, %

≤5.0

heavy metal(in Pb), %

≤0.0010

arsenic, %

≤0.0003

content, %

 ≥98.0


Packing & Shipping of Sodium Myristate:
We have many different kinds of packing which depend on the sodium myristate quantity.
Sodium myristate packing: 25kg/bag, or as your request.
Sodium myristate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Sodium Myristate CAS 822-12-8插图

Sodium Myristate Powder Properties

Other NamesSODIUM MYRISTATE 822-12-8
Sodium tetradecanoate,
Tetradecanoic acid, sodium salt,
Myristic acid sodium salt
CAS No.822-12-8
Compound FormulaCH3(CH2)12COONa
Molecular WeightN/A
Appearancewhite fine powder
Melting PointN/A
Solubility in waterN/A
DensityN/A
Purity>98%
Particle Size200 mesh
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact Mass478.387252
Monoisotopic Mass478.387252
  
  

Sodium Myristate 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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How to Determine the Boiling Point of Sodium Chloride

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The boiling point of sodium chloride is very high, about one thousand degrees Celsius. It is used in industrial applications, like fire extinguishing. However, it is not acid, so there is no odour and it has a salty taste.

To determine the boiling point of a substance, it is necessary to take an aqueous solution of the substance and heat it until the bubbles begin to form. This is done by using a thermometer. Once the temperature rises to a certain level, the bubbles slowly start to rise out of the capillary tube. After this, the temperature is calculated by taking the average of two readings.

Another method is to use a gas burner or spirit lamp to heat the water. Once it reaches a certain temperature, the particles of the solute in the water are broken apart into positive and negative ions. These ions attract one another, forming metal chlorides. In turn, the sodium and chlorine ions in the water change the hydrogen bonding between the water molecules.

When the sample is heated under oxidizing conditions, its mass loss increases significantly. At this time, it forms a yellow glazed surface. It is not possible to observe individual NaCl molecules at this temperature.

It is difficult to observe solid sodium chloride because it has a strong ionic bond. For this reason, the substance has to be viewed as a lattice of sodium and chloride ions. A sodium molecule will have its ionic side facing the oxygen atom of the water molecule and a chlorine molecule will have its ionic side faced towards the hydrogen atom of the water molecule.


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    Sodium Silicate Supplier

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    This is a type of organic substance with the chemical formula Na2O*nSiO2. It is a colorless and translucent, transparent or slightly tinted bulk vitreous material. Its aqueous liquid solution, also known waterglass and waterglass, is a type of mineral adhesive. It is a soluble, inorganic silicate which has many uses.
    N=SiO2/Na2O is the molar ratio. It is the module of sodium silicate. Modulus, which can be found between 1.5 to 3.5 in sodium silicate is an important parameter. The more sodium silicate is difficult to dissolve in water, the higher its modulus. Warm water can dissolve n if it is constant. Hot water is required for n to increase. When n exceeds 3, steam at greater than 4 atmosphere pressure is required for dissolution.
    The greater the modulus of sodium sililicate, the higher the Si content. In turn, sodium silicate viscosity increases. It is easier to decompose, harden, and increase the bonding strength. Additionally, sodium silicate with different levels of polymerization has significant differences. These differences have an impact on the production and use of the hydrolysate.

    The sodium silicate can be broken down into two types: solid sodium silicate (liquid sodium silicate)
    Liquid sodium silicate
    Liquid Na2O*nSiO2 can be distinguished by the difference in the ratio of quartz and alkali. The appearance of liquid Na2O*nSiO2 will also vary depending on the type of alkali. There are many colors available, including black, gray, and colorless. There are three types of neutral Na2O*nSiO2, Alkaline Na2O*nSiO2, and weakly simple Na2O*nSiO2.

    Solid sodium silicate
    Solid-state Ni2O*nSiO22 is a intermediate product that has a pale blue appearance. The Na2O*nSiO2 created by dry casting is transparent and bulky. While the Na2O*nSiO2 obtained by wet water quenching is granular and can only be used for liquid Na2O*nSiO2. There are several common types of Na2O*nSiO2 product options: powder solid, block solid, instant sodium Silicate, zero sodium metasilicate pentahydrate sodium Metasilicate and sodium orthosilicate.

    For what purpose is sodium silicate used?
    Sodium silicate, the most important soap filler, is highly valued. Mixing sodium silicate in laundry soap can lower the alkalinity. This will reduce soap loss, improve washing ability, and prevent soap from becoming rancid.
    Sodium silicate helps to wash, stabilize and prevent corrosion in synthetic detergents.
    Useful for papermaking fillers
    It is used for the manufacture of silica gel.
    This is used to bond clay and sand in the foundry, and create all sorts of moulds and cores.

    What are the other names for sodium silicate,
    Sodium silicate can be described as an inorganic salt that has silicate counterion. It is also known to be sodium metasilicate, or water glass.

    How does sodium silicate affect concrete?
    Alkali activator for alkali active cement can be made from sodium silicate. Concrete uses it as a setting agent and silicate mineral coating, which improves durability and waterproofing.

    Sodium Silicate Powder Price
    Price is affected by many factors, including supply and demand, industry trends and economic activity.
    For the most recent sodium silicate price, please send us an inquiry to receive a quote. (brad@ihpa.net)

    Sodium Silicate Powder Supplier
    Technology Co. Ltd. is a trusted global supplier and manufacturer of chemical materials. We have more than 12 years experience in producing super high-quality chemicals.
    We can provide high-quality sodium silicate dust. Please contact us to send us an inquiry. (brad@ihpa.net)

    Sodium Acetate Density g/ml

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    Density g/ml

    sodium acetate density g/ml is an indicator of the mass of a substance per unit volume. Often used as a guide when preparing dilutions of chemicals or other materials.

    In the body, sodium ions (Na+) form part of fluid and electrolyte balance as well as osmotic pressure. Sodium is also involved in nerve conduction, muscle contraction, acid-base balance and cell nutrient uptake.

    It is metabolized in the liver to bicarbonate which in turn is excreted via the urine and feces. It may also be excreted in saliva, sweat, bile and pancreatic secretions.

    Sodium acetate is a commonly administered intravenous salt solution for the treatment of hyponatremia. It is particularly useful as a source of sodium in parenteral fluids to prevent or correct hyponatremia in patients with restricted or no oral intake of sodium.

    The product has been approved by FDA under sections 505 and 507 of the Federal Food, Drug, and Cosmetic Act for the treatment of hypernatremia and is a component in a number of currently marketed prescription drugs. The FDA-approved use is based on safety and effectiveness.

    Uses – General –

    The substance is migrating to food from packaging materials and is generally recognised as safe for its intended use when added to food in accordance with good manufacturing or feeding practice. It is also considered a general purpose food additive for animal drugs, feeds and related products when it is in compliance with specified requirements.

    What is the Melting Point of Sodium Chloride?

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    what is the melting point of sodium chloride?

    The melting point of sodium chloride is 801deg C (1474deg F)2 at which it melts into a liquid, thus becoming a “molten salt”. Molten salt has a higher melting temperature than a solid sodium chloride because its ions have a much stronger electrostatic attraction.

    Despite the strong attraction, it takes more energy to melt a solid salt than it does to melt water because cations are attracted to each other, while anions are not. This is called Simon’s law.

    Why is it important to know the melting point of a substance?

    Besides being a good indicator of how much energy is required to change something from one form to another, the melting point is also an indication of the chemical’s stability. In particular, it indicates how well the material resists heat.

    Why does it take more energy to melt a solid sodium chloride than it does to melt a solid water?

    It is because the ions of sodium chloride have a stronger electrostatic attraction than cations do. This makes it easier for them to move freely, forming a liquid.

    Moreover, the crystalline structure of salt means that the larger chloride ions are arranged in cubic close-packing, while the smaller sodium ions fill the octahedral gaps between them. This allows NaCl to absorb and retain moisture as a good desiccant, a substance that can prevent the growth of bacteria or mold in dry environments. It is also useful in reducing the freezing point of water, which is an essential component of de-icing roads and pavements.

    Chemical Properties of Sodium Chloride

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    Sodium chloride, or NaCl, is an ionic compound that is found in nature and is most commonly used as table salt. It is also a major raw material in the manufacturing of many important chemicals including sodium hydroxide, hydrochloric acid, baking soda, etc.

    The chemical properties of nacl (table salt) and other sodium chlorides are explained by simple ionic bonding. These bonds occur when an atom of the metals on one side of the periodic table, such as sodium, loses electrons to become a negatively charged ion, and an atom of the non-metals on the other side of the table, such as chlorine, gains electrons to become a positively charged ion.

    As a result of this interaction the two ions sodium and chlorine are attracted to each other, on the principle that opposite charges attract. This ionic bonding is what gives nacl its good electrical conductivity.

    In addition to its well-known use as table salt, nacl is a common component in saline solutions for medical purposes and is used in road deicing in cold and snowy weather conditions.

    It is also a major ingredient in blackstrap molasses. This dark, thick molasses is one of the most beloved ingredients in cooking.

    Historically, nacl was used as an optical component for infrared (IR) light. However, modern materials like zinc selenide are more effective in this spectral range. For this reason nacl has become less popular in recent years. It is still used in some applications, such as in the construction of vacuum sealed assembly areas or for short-term uses such as prototyping.