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Product Name | Isodecyl acrylate |
Cas Number | 1330-61-6 |
Formula | C13H24O2 |
Molar Mass | 212.33 g/mol |
Boiling Point | 270-272°C |
Density | 0.885 g/cm³ |
Refractive Index | 1.436 |
Flash Point | 95°C |
Viscosity | 6 mPa·s |
Melting Point | -30°C |
Vapor Pressure | 0.0033 kPa at 20°C |
Appearance | Colorless liquid |
Solubility In Water | Insoluble |
Odor | Ester-like odor |
What is the application of isodecyl acrylate?
Isodecyl acrylate is an important monomer with various applications.Isodecyl Acrylate is a monomer that has many applications.
In the coatings industry, it plays a significant role.It plays a major role in the coatings industry. It can be copolymerized with other monomers to produce high - performance coatings.It can be copolymerized to produce high-performance coatings. These coatings have good abrasion resistance, which makes them suitable for use in industrial settings where surfaces are prone to wear, such as machinery parts.These coatings are resistant to abrasion, making them ideal for industrial settings, where surfaces such as machinery parts are subject to wear. The copolymer coatings also exhibit excellent weather resistance.The copolymer coats are also weather resistant. They can withstand exposure to sunlight, moisture, and temperature variations without significant degradation, making them ideal for exterior coatings on buildings and vehicles.They are resistant to exposure to sunlight, humidity, and temperature changes without significant degradation. This makes them ideal for exterior coatings of buildings and vehicles. Isodecyl acrylate - based coatings can provide a smooth and durable finish, enhancing the aesthetic and protective qualities of the coated objects.Isodecyl-acrylate-based coatings provide a smooth, durable finish that enhances the aesthetics and protective qualities of coated objects.
In the adhesives field, isodecyl acrylate is used to formulate adhesives with improved performance.Isodecyl Acrylate is used in the adhesives industry to create adhesives that perform better. The polymers derived from it can offer good adhesion to a wide range of substrates, including plastics, metals, and wood.Polymers derived from isodecyl acrylate can adhere to a variety of substrates including wood, metals and plastics. These adhesives are often used in the assembly of consumer products, such as electronics and furniture.These adhesives are used to assemble consumer products such as furniture and electronics. They can provide strong and long - lasting bonds, ensuring the integrity of the assembled items.These adhesives can form strong and durable bonds that ensure the integrity of assembled items. Additionally, the flexibility imparted by isodecyl acrylate in the adhesive formulation allows it to adapt to the movement and expansion/contraction of the substrates, preventing the adhesive joints from breaking.
It is also utilized in the production of polymers for inks.It is also used in the production polymers for inks. The inks made with polymers containing isodecyl acrylate have good printability and drying properties.Inks made from polymers containing Isodecyl Acrylate have excellent printability and drying characteristics. They can be used in various printing processes, such as offset printing and screen printing.They can be used for various printing processes such as screen printing and offset printing. The resulting printed materials have high color fastness and durability, which is crucial for applications like packaging printing and label production.The printed materials are durable and have a high color fastness, which is important for applications such as packaging printing and label manufacturing. The ability of the ink to adhere well to different packaging materials ensures that the printed information remains clear and intact during storage and transportation.The ink's ability to adhere to different packaging materials helps to ensure that the printed information is clear and intact when stored and transported.
In the area of plastics modification, isodecyl acrylate can be incorporated into plastics to improve their properties.Isodecyl Acrylate can be used to modify plastics and improve their properties. It can enhance the impact resistance of brittle plastics, making them more suitable for applications where they may be subjected to mechanical stress.It can improve the impact resistance of plastics that are brittle, making them better suited for applications in which they may be exposed to mechanical stress. For example, in the production of certain types of plastic pipes or automotive interior parts, adding isodecyl acrylate - based polymers can increase their toughness and resistance to breakage.In the production of certain types plastic pipes or interior parts for automobiles, adding isodecyl-acrylate-based polymers can increase toughness and resistance.
What are the properties of isodecyl acrylate?
Isodecyl acrylate is an organic compound with several notable properties.Isodecyl Acrylate is a compound that has several interesting properties.
Physical properties:Physical Properties
It is typically a clear, colorless liquid.It is usually a clear liquid. The compound has a characteristic odor, though not overly pungent.The compound has an odor that is characteristic, but not too pungent. In terms of solubility, it is soluble in many organic solvents such as hydrocarbons, esters, and ketones.It is soluble in a wide range of organic solvents, including hydrocarbons, esters and ketones. This solubility property makes it useful in formulating various solutions and mixtures in industries.This property of solubility makes it useful for formulating different solutions and mixtures. For instance, in the coatings industry, its solubility allows it to be incorporated into different solvent - based formulations.In the coatings industry for example, its solubility makes it possible to incorporate it into different solvent-based formulations.
Isodecyl acrylate has a relatively low viscosity.Isodecyl Acrylate is a viscosity that is relatively low. This low viscosity enables easy handling during manufacturing processes.This low viscosity makes it easy to handle during manufacturing processes. It can flow easily through pipes and be mixed well with other components.It flows easily through pipes and can be mixed with other components. In applications like ink -jet printing inks or some types of adhesives, the low viscosity ensures smooth application and even distribution.Low viscosity is ideal for applications such as ink-jet printing inks and some types of adhesives.
Chemical properties:Chemical properties
One of the most important chemical properties of isodecyl acrylate is its polymerizability.Polymerizability is one of the most important chemical characteristics of isodecyl-acrylate. The acrylate group in the molecule is highly reactive towards free - radical polymerization.The acrylate group of the molecule is highly reactive towards free-radical polymerization. This means that under the influence of heat, light, or the presence of a suitable initiator, isodecyl acrylate monomers can rapidly link together to form polymers.It means that isodecyl-acrylate monomers can link quickly together under the influence or heat, light or a suitable initiator. The resulting polymers have a wide range of applications.The polymers that result have a wide variety of applications. In the production of acrylic polymers for coatings, the polymerized isodecyl acrylate provides good film - forming properties.The polymerized isodecyl acrylicate has good film-forming properties when used in the production of acrylic coating polymers. The polymers formed can be tailored to have specific hardness, flexibility, and durability characteristics depending on the polymerization conditions and the use of co - monomers.The polymers can be tailored for specific hardness, flexibility and durability depending on the polymerization condition and the use co - monomers.
It also has good weather resistance.It is also resistant to weather. Once polymerized, the resulting materials are able to withstand exposure to sunlight, moisture, and temperature variations without significant degradation.Once polymerized the materials can withstand exposure to sunlight and moisture as well as temperature changes without significant degradation. This makes it a valuable component in outdoor coatings, where resistance to environmental factors is crucial.This makes it an important component in outdoor coatings where resistance to environmental elements is critical. For example, in automotive paints, the use of isodecyl acrylate - based polymers helps the paint maintain its color, gloss, and integrity over long periods of time.In automotive paints, for example, isodecyl-acrylate-based polymers help the paint retain its color, gloss and integrity over a long period of time.
In addition, isodecyl acrylate can participate in cross - linking reactions.Cross-linking reactions can also be carried out by isodecylacrylate. Cross - linking can enhance the mechanical properties of the polymers, such as increasing their tensile strength and abrasion resistance.Cross-linking can improve the mechanical properties of polymers by increasing their tensile and abrasion strength. This is beneficial in applications where the final product needs to withstand mechanical stress, like in industrial flooring coatings or some types of protective linings.This is useful in applications where the end product must withstand mechanical stress. For example, industrial flooring coatings and some types of protective linings.
Is isodecyl acrylate harmful to the environment?
Isodecyl acrylate can have potential harmful effects on the environment.The environment can be adversely affected by isodecylacrylate.
In the aquatic environment, it is of concern.It is a concern in the aquatic environment. Although data on its acute toxicity to aquatic organisms may vary, it has the potential to be toxic to fish, invertebrates, and aquatic plants.It is toxic to aquatic organisms, including fish, invertebrates and aquatic plants, even though data on its acute toxicity may vary. When it enters water bodies, it can disrupt the normal physiological functions of these organisms.It can disrupt the normal physiological function of aquatic organisms when it enters waterbodies. For example, it might interfere with the respiratory systems of fish or affect the growth and reproduction of aquatic invertebrates.It could, for example, interfere with the respiratory system of fish or affect growth and reproduction in aquatic invertebrates.
Regarding its biodegradability, it may not break down very rapidly in the environment.It may not degrade very quickly in the environment. Slow biodegradation means that it can persist in soil, water, or sediment for an extended period.Slow biodegradation is when a substance can persist for a long time in soil, water or sediment. This persistence can lead to bioaccumulation in organisms over time.This persistence can lead over time to bioaccumulation of organisms. As smaller organisms absorb isodecyl acrylate, they can pass it up the food chain.As smaller organisms absorb the isodecyl, they can pass this up the food chain. Larger organisms that consume these smaller ones may accumulate even higher amounts, which can have cascading effects on the entire ecosystem.The larger organisms that eat the smaller ones can accumulate higher amounts of isodecyl acrylate, which can cascade effects on the ecosystem.
In the atmosphere, isodecyl acrylate can contribute to the formation of photochemical smog.Isodecyl Acrylate can contribute to photochemical smog in the atmosphere. When it is released into the air, it can react with other pollutants in the presence of sunlight.When released into the atmosphere, it can react in the presence sunlight with other pollutants. These reactions can lead to the production of harmful secondary pollutants such as ozone, which is not only harmful to human health but also has a negative impact on plants.These reactions can produce harmful secondary pollutants, such as ozone. This is not only harmful for human health, but also has an adverse impact on plants. High levels of ozone can damage plant leaves, reducing their ability to carry out photosynthesis effectively.High levels of Ozone can damage the leaves of plants, reducing their ability for photosynthesis.
Overall, while the exact extent of harm depends on factors like the concentration and exposure duration, isodecyl acrylate poses risks to the environment.Isodecyl Acrylate poses environmental risks, even though the exact level of harm depends on factors such as concentration and exposure time. Efforts should be made to manage its use and release to minimize these potential negative impacts on aquatic life, soil ecosystems, and the atmosphere.It is important to manage its release and use to minimize the negative effects on aquatic life, soil eco-systems, and atmosphere.
How is isodecyl acrylate stored and transported?
Isodecyl acrylate is a chemical compound that requires proper storage and transportation to ensure safety and maintain its quality.Isodecyl Acrylate is a chemical that requires safe storage and transportation in order to maintain its quality and safety.
Storage:
1. Store in a cool, well - ventilated area.Store in a well-ventilated, cool area. High temperatures can accelerate chemical reactions such as polymerization.High temperatures can speed up chemical reactions, such as polymerization. A temperature range of around 5 - 30 degrees Celsius is often ideal.Ideal temperatures are usually between 5 and 30 degrees Celsius. Avoid areas with direct sunlight as it can also initiate unwanted reactions.Avoid areas that receive direct sunlight, as this can also cause unwanted reactions.
2. Keep away from sources of ignition.Keep away from ignition sources. Isodecyl acrylate is flammable, so storage areas should be free from open flames, sparks from electrical equipment, or any potential ignition sources.Storage areas for isodecyl should be kept away from open flames or sparks from electrical appliances. This includes not storing it near boilers, furnaces, or areas where welding or other hot work is carried out.This includes avoiding storing it near furnaces, boilers or areas where hot work such as welding is performed.
3. Use appropriate containers.Use the right containers. It should be stored in tightly sealed containers made of materials compatible with isodecyl acrylate, such as stainless - steel or certain types of plastics.It should be stored in tightly-sealed containers made from materials compatible with isodecylacrylate, like stainless steel or certain types plastics. These containers prevent leakage and exposure to air, which could potentially lead to oxidation or other chemical changes.These containers prevent leakage or exposure to air which could lead to oxidation and other chemical changes.
4. Segregate from incompatible substances.Separate from incompatible substances. Isodecyl acrylate should not be stored near strong oxidizing agents, bases, or acids.Isodecyl Acrylate should not be kept near strong acids, bases or oxidizing agents. Contact with these substances can cause violent reactions, decomposition, or polymerization.Contact with these substances may cause violent reactions, polymerization, or decomposition.
Transportation:
1. Compliance with regulations.Compliance with regulations. Transport of isodecyl acrylate must adhere to local, national, and international transportation regulations.Transport of isodecyl acrylicate must adhere to local and national transportation regulations. For example, in the United States, the Department of Transportation (DOT) has strict rules regarding the classification, labeling, and packaging of hazardous materials like isodecyl acrylate.In the United States for example, the Department of Transportation has strict rules about the classification, labeling and packaging of hazardous substances like isodecyl acrylate.
2. Packaging. The compound should be packaged in approved containers that can withstand the rigors of transportation.Packaging. Drums or intermediate bulk containers (IBCs) are commonly used.Drums or intermediate-bulk containers (IBCs), are the most common. These containers should be leak - proof and labeled clearly with information about the substance, including its name, hazard class, and emergency contact details.These containers must be leak-proof and clearly labeled with information about the substance including its name, hazards class, and emergency contacts.
3. During transit, ensure that the vehicle is in good condition.Ensure that the vehicle is in good working order before you start your journey. The vehicle should have proper ventilation to prevent the build - up of flammable vapors.To prevent the accumulation of flammable gases, the vehicle should be properly ventilated. Temperature control may also be necessary, especially during long - distance hauls in extreme weather conditions.Temperature control is also necessary, particularly during long-distance hauls and in extreme weather conditions.
4. Drivers and handlers should be trained in the proper handling of isodecyl acrylate.Drivers and handlers need to be trained on the proper handling of Isodecyl Acrylate. They need to know how to respond in case of a spill or an emergency, including having access to appropriate safety equipment such as fire extinguishers and spill containment kits.They should know what to do in the event of an emergency or spill, and have access to safety equipment like fire extinguishers.
What are the safety precautions when using isodecyl acrylate?
Isodecyl acrylate is a chemical compound that requires certain safety precautions when in use.Isodecyl Acrylate is a chemical that requires special precautions to be taken when used.
Firstly, in terms of personal protective equipment.First, personal protective equipment. When handling isodecyl acrylate, wear appropriate chemical - resistant gloves.Wear chemical-resistant gloves when handling isodecylacrylate. Nitrile or neoprene gloves are often good choices as they can provide a barrier against the chemical.Gloves made of nitrile or neoprene are good options as they provide a barrier to the chemical. This helps prevent skin contact which could lead to irritation, redness, or allergic reactions.This will help prevent skin contact that could cause irritation, redness or allergic reactions. Additionally, safety goggles should be worn at all times.Safety goggles must also be worn at any time. The eyes are extremely sensitive, and if isodecyl acrylate splashes into the eyes, it can cause serious damage, including corneal abrasions and long - term vision problems.Isodecyl Acrylate can cause serious eye damage including corneal abrasions, long-term vision problems, and even death if it splashes in the eyes. Also, wear a lab coat or other protective clothing to safeguard the body from spills.Wear a labcoat or other protective clothing in order to protect the body from spills.
Secondly, ensure proper ventilation. Isodecyl acrylate may release vapors, and if inhaled in high concentrations, it can cause respiratory irritation, coughing, and shortness of breath.Inhaling high concentrations of isodecylacrylate can cause respiratory irritation and coughing. Work in a well - ventilated area, such as a fume hood if possible.If possible, work in an area that is well-ventilated. For example, a fume hood. If working in an open - air environment, make sure there is sufficient air circulation to disperse the vapors.If you are working in an open-air environment, ensure that there is enough air circulation to disperse vapors. This reduces the risk of inhaling harmful amounts of the chemical.This will reduce the risk of inhaling harmful quantities of the chemical.
Thirdly, be careful during storage and handling.Thirdly, take care when handling and storing the product. Store isodecyl acrylate in a cool, dry place away from heat sources and open flames.Store isodecyl acrylicate in a dry, cool place away from heat and open flames. It is flammable, so any ignition source can potentially start a fire.Any ignition source could potentially start a blaze, as it is flammable. Keep the containers tightly closed when not in use to prevent evaporation and leakage.When not in use, keep the containers tightly shut to prevent evaporation. When transferring the chemical, use appropriate funnels and containers to avoid spills.Use the appropriate containers and funnels to prevent spills when transferring the chemicals. If a spill does occur, immediately take steps to clean it up.If a spill occurs, take immediate action to clean it. Absorb the spill with an appropriate absorbent material, such as vermiculite or sand, and then dispose of the contaminated material according to local regulations.If a spill occurs, immediately clean it up.
Finally, in case of contact or exposure.In the event of exposure or contact, you should also take action. If isodecyl acrylate comes into contact with the skin, immediately wash the affected area with plenty of soap and water for at least 15 minutes.If you come into contact with isodecylacrylate, wash the area immediately with soap and water. If it gets into the eyes, rinse them thoroughly with water for a minimum of 15 minutes and seek immediate medical attention.If it gets in the eyes, wash them thoroughly for at least 15 minutes with plenty of water and seek immediate medical care. In case of inhalation, move to fresh air immediately.In the event of inhalation, get to fresh air as soon as possible. If breathing difficulties persist, call for emergency medical help.Call for emergency medical assistance if breathing problems persist. If swallowed, do not induce vomiting unless instructed by a medical professional, and seek medical assistance promptly.If you swallowed the substance, do not induce vomiting without medical advice. Seek medical attention immediately.