What is the CAS number of (2-Ethoxyethoxy)ethyl acrylate?

The CAS number of (2 - Ethoxyethoxy)ethyl acrylate is 10476 - 92 - 1.The CAS number for (2 - Ethoxyethoxy )ethyl acrylicate is 10476-92-1.
CAS numbers, or Chemical Abstracts Service Registry Numbers, are unique identifiers assigned to chemical substances.CAS numbers are unique identifiers for chemical substances. They play a crucial role in the identification and cataloging of chemicals in various scientific, industrial, and regulatory contexts.They are used to identify and catalog chemicals in a variety of scientific, industrial and regulatory contexts.

(2 - Ethoxyethoxy)ethyl acrylate is an organic compound.The organic compound (2-Ethoxyethoxyethyl)ethylacrylate is a chemical. Its CAS number helps in accurately referring to this specific chemical in research papers, chemical databases, safety data sheets, and regulatory filings.Its CAS helps to accurately refer to this chemical in research papers and other documents such as safety data sheets, chemical databases, and regulatory filings. For example, when a chemist is looking for information on the synthesis, properties, or potential applications of (2 - Ethoxyethoxy)ethyl acrylate, the CAS number allows them to precisely locate relevant information.The CAS number can be used to locate information about the synthesis, properties or potential applications of (2-Ethoxyethoxyethyl)ethylacrylate. In the chemical industry, manufacturers and suppliers use the CAS number to ensure proper labeling and documentation of the product.The CAS number is used by manufacturers and suppliers in the chemical industry to ensure that the product is properly labeled and documented. It also aids in compliance with environmental, health, and safety regulations.It is also used to ensure compliance with safety, health, and environmental regulations. Different countries and international organizations rely on CAS numbers to classify and regulate chemicals, ensuring that potential hazards associated with (2 - Ethoxyethoxy)ethyl acrylate are properly identified and managed.CAS numbers are used by different countries and international organisations to classify and regulate chemical substances, ensuring that any potential hazards associated with (2-Ethoxyethoxyethyl)ethyl acrylicate are identified and managed. Overall, the CAS number 10476 - 92 - 1 serves as a universal key for accessing and communicating information related to this particular chemical compound.The CAS number 10476-92--1 is a universal key that can be used to access and communicate information about this chemical compound.

What are the applications of (2-Ethoxyethoxy)ethyl acrylate?

(2-Ethoxyethoxy)ethyl acrylate is a versatile chemical with several important applications.
One of the main uses is in the field of coatings.Coatings are one of the most common uses. It can be incorporated into coating formulations to enhance various properties.It can be added to coating formulations to improve various properties. For instance, it improves the film - forming ability of coatings.It can improve the ability of coatings to form films. The presence of its specific chemical structure allows for the formation of smooth, continuous, and uniform films.Its specific chemical structure allows the formation of uniform, smooth, and continuous films. This is beneficial for protecting surfaces such as metals, wood, and plastics.This is useful for protecting surfaces like metals, plastics, and wood. In automotive coatings, it can contribute to better adhesion of the paint to the vehicle body, increasing the durability and longevity of the finish.In automotive coatings it can improve the adhesion of paint to the vehicle's body, increasing durability and longevity. Additionally, it can enhance the flexibility of the coating, preventing cracking and chipping, especially in environments where the substrate may expand or contract due to temperature changes.It can also improve the flexibility of the paint, preventing chipping and cracking, especially in environments with temperature fluctuations.

In the adhesives industry, (2 - Ethoxyethoxy)ethyl acrylate plays a crucial role.In the adhesives sector, (2-Ethoxyethoxyethoxyethyl)ethylacrylate is a key ingredient. It can be used as a monomer in the synthesis of adhesive polymers.It can be used to synthesize adhesive polymers as a monomer. The resulting polymers have good adhesion properties to a wide range of materials.The polymers produced have good adhesion to a variety of materials. They are often used in pressure - sensitive adhesives, which are found in products like tapes and labels.They are used in pressure-sensitive adhesives that are found in tapes and labels. The chemical's structure enables the formation of strong intermolecular forces with the adhered surfaces, providing reliable and long - lasting adhesion.The chemical structure allows for the formation of strong intermolecular force with the adhered surface, resulting in reliable and long-lasting adhesion.

This compound is also valuable in the production of inks.This compound is also useful in the production inks. In the printing industry, it helps in formulating inks that have excellent printability and drying characteristics.In the printing industry it is used to formulate inks with excellent printability and drying properties. For example, in UV - curable inks, it can be a key component.It can be a crucial component in UV-curable inks. When exposed to ultraviolet light, it undergoes polymerization, quickly solidifying the ink on the printed surface.When exposed to UV light, it undergoes a polymerization process, solidifying the ink quickly on the printed surface. This results in high - quality prints with sharp images and good colorfastness.This produces prints of high-quality with sharp images and excellent colorfastness. It also improves the compatibility of the ink components, ensuring a homogeneous mixture and consistent printing results.It also improves compatibility between the ink components. This ensures a homogeneous mix and consistent printing results.

In the area of textiles, (2 - Ethoxyethoxy)ethyl acrylate can be used in textile finishing.Textile finishing can use (2-Ethoxyethoxyethyl)ethyl acrylicate. It can be applied to fabrics to impart certain functional properties.It can be used to impart functional properties to fabrics. For example, it can enhance the water - repellency of the fabric by modifying its surface chemistry.It can, for example, enhance the fabric's water-repellency by altering its surface chemistry. At the same time, it may also improve the fabric's resistance to abrasion, making the textile more durable during normal use and laundering.It can also increase the fabric's resistance against abrasion. This makes the textile more durable when used and laundered.

Finally, in the synthesis of specialty polymers, it serves as a building block.It is also used as a building-block in the synthesis and synthesis of speciality polymers. Polymer chemists can use it to create polymers with unique properties tailored to specific applications.It can be used by polymer chemists to create polymers that have unique properties for specific applications. These polymers can find use in areas such as biomedical applications, where biocompatible polymers are needed, or in electronics, where polymers with specific electrical or mechanical properties are required.These polymers have applications in biomedical applications where biocompatible polymers may be required, or in electronic applications where polymers with specific mechanical or electrical properties are required.

What are the physical and chemical properties of (2-Ethoxyethoxy)ethyl acrylate?

(2-Ethoxyethoxy)ethyl acrylate is an organic compound with the following physical and chemical properties.
Physical properties:Physical Properties
Appearance: It is typically a clear, colorless to pale - yellow liquid.Appearance: It's usually a clear, colorless liquid that ranges from pale yellow to clear. This appearance is common among many acrylate - based monomers, which are often used in polymer synthesis.This is a common appearance among many acrylate-based monomers that are used in polymer synthesis.
Odor: It has a characteristic, somewhat pungent odor.Odor: It emits a characteristic, pungent smell. The smell is a result of the acrylate functional group and the ethoxy - containing side chains.The smell is due to the acrylate functional groups and the ethoxy-containing side chains.
Boiling point: The boiling point of (2 - Ethoxyethoxy)ethyl acrylate is relatively high.Boiling Point: The boiling point for (2-Ethoxyethoxyethyl)ethyl acrylicate is relatively high. This is due to the presence of intermolecular forces such as dipole - dipole interactions.This is due to intermolecular interactions such as dipole-dipole interactions. The acrylate group has a polar carbon - oxygen double bond, and the ethoxy chains also contribute to the overall polarity of the molecule.The acrylate group contains a double bond between carbon and oxygen that is polar. The ethoxy chains contribute to the overall polarity. These interactions require a significant amount of energy to break, resulting in a relatively high boiling point.These interactions require significant energy to break and result in a high boiling point.
Melting point: It usually has a low melting point, remaining in the liquid state under normal ambient conditions.Melting point: It is usually a low melting temperature, and remains liquid under normal ambient conditions. This is beneficial for its use in various applications where a liquid form is more convenient, such as in coating formulations.This makes it ideal for use in applications that require a liquid form, such as coating formulations.
Solubility: It is soluble in many organic solvents.It is soluble with many organic solvents. The ethoxy - containing side chains enhance its solubility in organic media.Its solubility is enhanced by the presence of ethoxy-containing side chains. It can dissolve in solvents like acetone, toluene, and ethyl acetate.It can dissolve in solvents such as acetone, ethyl-acetate, toluene and acetone. This solubility property is important for formulating solutions for coating, adhesive, or ink applications.This property is crucial when formulating solutions for ink, adhesives, or coatings.

Chemical properties:Chemical properties
Reactivity: The most notable chemical property is its high reactivity due to the presence of the acrylate double bond.Reactivity: Its high reactivity is due to the presence a double bond acrylate. This double bond can undergo addition polymerization reactions.This double bond is capable of addition polymerization. In the presence of a suitable initiator, such as a free - radical initiator like benzoyl peroxide, the double bond can break and form long - chain polymers.In the presence a suitable initiator such as a radical free-radical initiator like benzoylperoxide, a double bond can be broken and long-chain polymers formed. These polymers find applications in the production of coatings, adhesives, and sealants.These polymers are used in the production coatings, sealants, and adhesives.
Hydrolysis: The ester group in (2 - Ethoxyethoxy)ethyl acrylate is susceptible to hydrolysis in the presence of water and an appropriate catalyst, either acidic or basic.Hydrolysis: The ester groups in (2-Ethoxyethoxyethyl)ethylacrylate are susceptible to hydrolysis when water is present and a suitable catalyst, acidic or basic. In an acidic medium, the hydrolysis reaction is a reversible process, while in a basic medium, it is irreversible and leads to the formation of the corresponding alcohol and acrylate salt.In an acidic environment, the hydrolysis is a reversible reaction, while in a base medium, it's irreversible.
Stability: It should be stored carefully as it can polymerize spontaneously under certain conditions, especially in the presence of heat, light, or trace amounts of initiators.Stability: It is important to store it carefully, as it can spontaneously polymerize under certain conditions. This includes heat, light or traces of initiators. To prevent premature polymerization, inhibitors are often added during storage and handling.During storage and handling, inhibitors can be added to prevent premature polymerization. These inhibitors scavenge free radicals that could initiate the polymerization process, thus maintaining the stability of the compound until it is used in a controlled polymerization reaction.These inhibitors neutralize free radicals which could initiate the polymerization, thereby maintaining the stability of a compound until it's used in a controlled reaction.

What is the toxicity of (2-Ethoxyethoxy)ethyl acrylate?

(2-Ethoxyethoxy)ethyl acrylate is a chemical compound with certain toxicity characteristics.
In terms of acute toxicity, when it comes into contact with the skin, it can cause irritation.When it comes in contact with skin, it can cause irritation. The skin may experience redness, itching, and a burning sensation.The skin may be irritated, swollen, or even burn. Prolonged or repeated skin exposure could potentially lead to more severe skin damage, such as dermatitis.Repeated or prolonged skin exposure can lead to more serious skin damage such as dermatitis. If it gets into the eyes, it is highly irritating and can cause significant pain, redness, and may even result in damage to the cornea and other eye tissues, potentially affecting vision.If it gets in the eyes, the irritation can be severe and cause pain, redness and even damage to the cornea or other eye tissues.

Inhalation of (2 - Ethoxyethoxy)ethyl acrylate vapors can also be harmful.Inhaling (2-Ethoxyethoxyethoxyethyl)ethyl acrylicate vapors is also harmful. It can irritate the respiratory tract, leading to symptoms like coughing, shortness of breath, and a feeling of tightness in the chest.It can irritate respiratory tracts, causing symptoms such as coughing, shortness breath, and a tightness in the chest. High - concentration inhalation may cause more serious respiratory problems, such as chemical pneumonitis.Inhaling high concentrations of chemicals can cause respiratory problems such as chemical pneumonitis.

Regarding its potential for chronic toxicity, long - term exposure may have systemic effects.Long-term exposure could have systemic effects in terms of its potential for chronic toxicities. There are concerns that it could be a potential reproductive toxin.It is possible that it could be a reproductive toxin. Animal studies have shown that exposure to certain acrylate - based compounds may affect the reproductive system, including impacts on fertility, embryo development, and potential teratogenic effects (causing birth defects).Animal studies have shown exposure to certain acrylate-based compounds can affect the reproductive system. This includes impacts on fertility, embryonic development, and possible teratogenic effects.

In addition, (2 - Ethoxyethoxy)ethyl acrylate may have mutagenic potential.Additionally, (2-Ethoxyethoxyethyl)ethyl Acrylate may also have mutagenic potencial. This means it has the ability to cause changes in the genetic material of cells.This means that it can cause changes to the genetic material in cells. Mutations in cells can lead to various health problems, including an increased risk of developing cancer over time.Mutations in cells may lead to a variety of health problems, such as an increased risk of cancer over time.

Overall, due to its toxicity, proper safety precautions should be taken when handling (2 - Ethoxyethoxy)ethyl acrylate.Due to its toxicity, it is important to take proper safety precautions when handling (2-Ethoxyethoxyethyl)ethyl Acrylate. Workers in industries where this chemical is used should wear appropriate personal protective equipment, such as gloves, goggles, and respiratory protection.Workers in industries that use this chemical should wear personal protective equipment such as goggles, gloves, and respiratory protection. Adequate ventilation in work areas is also crucial to minimize the risk of exposure.To minimize exposure, it is important to ensure that the work area has adequate ventilation.

What is the stability of (2-Ethoxyethoxy)ethyl acrylate?

(2-Ethoxyethoxy)ethyl acrylate is a type of acrylate monomer. Its stability is influenced by several factors.Its stability can be affected by several factors.
Thermal stability is an important aspect.Thermal stability is a very important factor. At elevated temperatures, (2 - Ethoxyethoxy)ethyl acrylate can potentially undergo decomposition reactions.(2-Ethoxyethoxyethyl)ethylacrylate may undergo decomposition at elevated temperatures. The acrylate group in the molecule contains a carbon - carbon double bond which is reactive.The acrylate group contains a reactive carbon-carbon double bond. High temperatures can initiate polymerization or decomposition processes.High temperatures can initiate polymerization and decomposition processes. Polymerization may occur through the activation of the double bond, leading to the formation of long - chain polymers.Polymerization can occur by activating the double bond. This leads to the formation of polymers with long chains. Decomposition might involve the breaking of chemical bonds within the molecule, such as the cleavage of the ester bond or the breakdown of the ethoxy - containing side chains.Decomposition can involve the breaking of chemical bond within the molecule. For example, the cleavage or breakdown of the side chains containing ethoxy. However, within a normal temperature range for storage and handling (usually around ambient to slightly elevated temperatures up to perhaps 50 - 60 degrees Celsius), it can be relatively stable for a certain period.It can be stable for a period of time if it is stored and handled at a normal temperature (usually ambient to slightly elevated temperatures, up to 50-60 degrees Celsius).

In terms of chemical stability, it can react with substances that are capable of reacting with the acrylate double bond.It can react with substances capable of reacting the acrylate double bonds. For example, nucleophiles can attack the double bond in an addition reaction.Nucleophiles, for example, can attack the double-bond in an addition reaction. Compounds like amines, thiols, and some metal - containing reagents can react with the acrylate group.Compounds such as amines, metal-containing reagents, and thiols can react with acrylate groups. This reactivity means that it should be stored away from such reactive chemicals to maintain its stability.It is important to store it away from other chemicals that are reactive in order to maintain its stability. In the presence of oxygen, (2 - Ethoxyethoxy)ethyl acrylate can also be subject to oxidation reactions.In the presence oxygen, (2-Ethoxyethoxyethyl)ethylacrylate is also susceptible to oxidation. The double bond can react with oxygen radicals, which may lead to the formation of peroxides or other oxidized products.The double bond may react with oxygen radicals to form peroxides and other oxidized products. These oxidation products can then further influence the chemical properties and stability of the monomer.These oxidation-related products can further affect the chemical properties and the stability of the monomer.

Light stability is another consideration.Another consideration is the stability of the light. Ultraviolet light can provide enough energy to initiate reactions involving the double bond.Ultraviolet can provide enough energy for reactions to occur involving double bonds. Photopolymerization can occur when exposed to UV light, which is why it is often stored in dark containers or under conditions with limited light exposure.UV light can cause photopolymerization, which is why it's often stored in dark containers with limited light exposure. If it is intended for long - term storage, proper protection from light is crucial to prevent premature polymerization or degradation.It is important to protect the product from light if it is to be stored for a long time. This will prevent premature degradation or polymerization.

In conclusion, the stability of (2 - Ethoxyethoxy)ethyl acrylate depends on multiple factors including temperature, the presence of reactive chemicals, oxygen, and light.Conclusion: The stability of (2-Ethoxyethoxyethyl)ethyl acrylicate is dependent on a number of factors, including temperature, oxygen, and light. By controlling these environmental factors, its stability can be maintained, allowing for its use in various applications such as in the production of coatings, adhesives, and polymers.By controlling these environmental variables, its stability can also be maintained. This allows it to be used in various applications, such as the production of polymers, adhesives and coatings.