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Product Name | Bio-Isobornyl methacrylate |
Cas Number | 7534-94-3 |
Formula | C14H22O2 |
Molar Mass | 222.33 |
Boiling Point | 126°C |
Density | 0.968 g/cm³ |
Refractive Index | 1.481 |
Flash Point | 113°C |
Viscosity | 9.5 mPa·s at 20°C |
Solubility | Insoluble in water |
Polymerizable | Yes |
Odor | Mild |
Appearance | Clear liquid |
Stability | Stable under recommended storage conditions |
What is the application of Bio-Isobornyl methacrylate?
Bio - Isobornyl methacrylate has several important applications.Bio-Isobornyl Methacrylate is used in a variety of important applications.
In the coatings industry, it plays a significant role.It plays a major role in the coatings industry. Coatings formulated with bio - isobornyl methacrylate offer enhanced hardness.Coatings formulated using bio-isobornyl methyl methacrylate have a higher hardness. This makes them suitable for protecting various surfaces, such as those in the automotive and furniture sectors.They are therefore suitable for a variety of surfaces, including those in the furniture and automotive sectors. For automotive exterior coatings, the hardness provided by this compound helps resist scratches and minor abrasions during normal use, maintaining the vehicle's aesthetic appeal over time.This compound's hardness is ideal for automotive exterior coatings. It helps to resist scratches and minor wear during normal use. In furniture coatings, it can protect the wood or other materials from daily wear and tear.It can be used to protect wood and other materials in furniture coatings from daily wear.
The compound also contributes to good gloss retention.The compound also contributes towards good gloss retention. Coatings with bio - isobornyl methacrylate can keep their shiny appearance for a long time, which is crucial for products where visual attractiveness is a key selling point.Bio - isobornyl methyl methacrylate coatings can maintain their shine for a long period of time. This is important for products that rely on visual appeal as a selling point. Whether it's a high - end piece of furniture or a luxury car, the ability to maintain gloss is highly valued.The ability to maintain gloss on a piece of high-end furniture or a luxurious car is highly valued.
In the field of adhesives, bio - isobornyl methacrylate can be used to improve adhesion properties.Bio - isobornyl methyl methacrylate is used in adhesives to improve adhesion. Adhesives containing this compound can bond well to different substrates, including plastics, metals, and glass.Adhesives that contain this compound bond well to a variety of substrates including plastics and metals. For example, in the assembly of electronic devices, where components made of various materials need to be joined securely, these adhesives can provide reliable bonding.These adhesives are useful in electronic device assembly, for example, when components made from different materials need to be bonded securely.
It is also used in 3D printing materials.It is also used as a 3D printing material. In some photopolymer - based 3D printing resins, bio - isobornyl methacrylate can be incorporated.Bio - isobornyl methyl methacrylate may be used in some photopolymer-based 3D printing materials. It helps in achieving high - resolution prints due to its ability to polymerize precisely under light exposure.It is a good material for high-resolution prints because it polymerizes precisely when exposed to light. This allows for the creation of complex and detailed 3D structures.This allows the creation of detailed and complex 3D structures. Additionally, the mechanical properties of the printed parts can be adjusted by using bio - isobornyl methacrylate, enabling the production of parts with specific strength and flexibility requirements.Bio-isobornylmethacrylate can also be used to adjust the mechanical properties of printed parts, allowing them to meet specific requirements for strength and flexibility.
In the production of plastics and composites, bio - isobornyl methacrylate can act as a modifier.Bio - isobornylmethacrylate can be used as a modifier in the production of composites and plastics. It can improve the processability of plastics, making it easier to mold them into different shapes.It can improve plastics' processability, making them easier to shape into different shapes. In composites, it can enhance the interfacial adhesion between the matrix and the reinforcement materials, thereby improving the overall mechanical performance of the composite.In composites it can improve the interfacial adhesiveness between the matrix and reinforcement materials, improving the overall mechanical properties of the composite. This is beneficial in industries such as aerospace, where lightweight yet strong composites are in high demand.This is especially useful in industries like aerospace, which are in need of lightweight composites that are also strong. Overall, bio - isobornyl methacrylate is a versatile compound with wide - reaching applications across multiple industries.Bio - isobornyl methyl methacrylate, a versatile material with applications in multiple industries, is widely used.
What are the properties of Bio-Isobornyl methacrylate?
Bio - Isobornyl methacrylate is a derivative of isobornyl methacrylate with potential biological - origin - related aspects.Bio - Isobornyl Methacrylate is an isobornyl derivative with potential biological origin-related aspects. Here are its main properties:Here are some of its main properties.
Physical properties:Physical Properties
1. Appearance: It is typically a colorless to slightly yellow - colored liquid.Appearance: This liquid is usually colorless or slightly yellow-colored. This clear appearance makes it suitable for applications where transparency is desired, such as in coatings for optical components or clear plastics.This clear appearance makes the liquid suitable for applications that require transparency, such as coatings for optical components and clear plastics.
2. Viscosity: It has a relatively low viscosity.Viscosity is low. This property allows for easy processing, whether it is being used in the preparation of monomers for polymerization reactions or in the formulation of liquid - based products.This property makes it easy to process, whether in the preparation monomers for polymerization or in the formulation liquid-based products. The low viscosity enables good flow characteristics, which is beneficial for processes like casting, spraying, or dip - coating.Low viscosity allows for good flow characteristics which are beneficial for processes such as casting, spraying or dip - coating.
3. Boiling point: It has a boiling point that is high enough to be stable under normal processing conditions.Boiling point - It has a high enough boiling point to be stable in normal processing conditions. This high boiling point ensures that it does not evaporate easily during the manufacturing processes, allowing for controlled reactions and product formation.This high boiling point makes it difficult to evaporate during manufacturing processes.
Chemical properties:Chemical properties
1. Polymerizability: Bio - Isobornyl methacrylate contains a methacrylate functional group, which is highly reactive towards polymerization.Polymerizability : Bio-Isobornyl Methacrylate contains the methacrylate functional groups, which are highly reactive to polymerization. It can participate in radical polymerization reactions, either alone or in combination with other monomers.It can be used in radical polymerization reactions alone or in combination. This ability to polymerize makes it a key component in the production of various polymers and copolymers.Its ability to polymerize is a key component for the production of polymers and copolymers. The resulting polymers can have a wide range of properties depending on the polymerization conditions and the comonomers used.The polymers produced can have different properties depending on polymerization conditions and comonomers.
2. Chemical stability: Once polymerized, the resulting polymers exhibit good chemical stability.Chemical stability: The polymers that result from polymerization have good chemical stability. They are resistant to many common chemicals, including acids, bases, and organic solvents to a certain extent.They are resistant to a wide range of common chemicals including acids, bases and organic solvents. This chemical resistance makes the polymers suitable for applications in environments where exposure to chemicals is likely, such as in industrial coatings or chemical - resistant containers.The polymers are resistant to chemicals, making them suitable for use in environments that may be exposed to chemicals.
3. Hydrophobicity: The isobornyl group in the molecule contributes to its hydrophobic nature.Hydrophobicity is due to the isobornyl group of the molecule. This property can be exploited in applications where water - resistance is required, like in outdoor coatings or in packaging materials for moisture - sensitive products.This property can be used in applications that require water resistance, such as outdoor coatings and packaging materials for moisture-sensitive products.
Mechanical properties:Mechanical properties
1. Hardness and abrasion resistance: Polymers derived from Bio - Isobornyl methacrylate often possess good hardness and abrasion resistance.Hardness and resistance to abrasion: Polymers derived by Bio-Isobornyl Methacrylate are often hard and resistant to abrasion. This makes them suitable for use in coatings for floors, furniture, and automotive parts, where resistance to scratching and wear is essential.This makes them ideal for coatings on floors, furniture and automotive parts where scratching and wear resistance is important.
2. Impact resistance: Depending on the polymerization process and the addition of other modifiers, the polymers can also have decent impact resistance.Impact resistance: Polymers can have a decent impact resistance depending on the polymerization and addition of other modifiers. This allows the materials to withstand mechanical stress and impacts without cracking or breaking easily.The materials can withstand mechanical stresses and impacts without easily cracking or breaking.
Biocompatibility - related properties (if applicable due to "bio -" prefix):Biocompatibility-related properties (if applicable, due to the "bio-" prefix:
1. Potential biocompatibility: Given the "bio -" prefix, there may be an indication of some level of biocompatibility.Biocompatibility: The "bio-" prefix may indicate a certain level of biocompatibility. This could make it suitable for applications in the medical or dental fields, such as in the production of certain dental restoratives or medical device coatings.This could make the material suitable for medical or dental applications, such as the production of certain dental restorations or medical device coats. However, the exact biocompatibility would need to be thoroughly tested and verified through in - vitro and in - vivo studies.The exact biocompatibility will need to be thoroughly evaluated and verified by in-vivo and in-vitro studies.
Is Bio-Isobornyl methacrylate safe to use?
Bio - Isobornyl methacrylate is generally considered safe for use under certain conditions.Bio-Isobornyl Methacrylate (BIBM) is generally considered safe to use under certain conditions.
In the field of cosmetics, it is used as an ingredient in various products.It is an ingredient in many cosmetic products. It has properties that can contribute to the texture, adhesion, and film - forming capabilities of cosmetics like nail polishes, lipsticks, and foundations.It can have properties that contribute to the texture and adhesion of cosmetics such as nail polishes and lipsticks. The safety assessment of this substance takes into account factors such as its potential for skin irritation, allergenicity, and systemic toxicity.This substance is assessed for its safety based on factors such as the potential for skin irritation, allergy, and systemic toxic effects.
Regarding skin irritation, studies have shown that when used in appropriate concentrations, it does not typically cause significant irritation to the skin.Studies have shown that skin irritation is rare when the product is used in appropriate concentrations. Most individuals do not experience redness, itching, or other signs of skin irritation upon normal contact.The majority of people do not experience any redness, itchiness, or other signs when they are in contact with the product. However, as with any chemical, there is a small possibility that some people with highly sensitive skin may have a mild reaction.As with any chemical, it is possible that some people who have highly sensitive skin will experience a mild reaction.
Allergenicity is another aspect of concern.Another aspect to be concerned about is allergenicity. Extensive research and testing have been carried out to determine its potential to cause allergic reactions.It has been subjected to extensive research and testing to determine the potential for allergic reactions. So far, the incidence of allergic responses to Bio - Isobornyl methacrylate is relatively low.Bio - Isobornyl Methacrylate has a relatively low incidence of allergic reactions. But, as in the case of any cosmetic ingredient, allergic reactions can occur in a very small subset of the population, often due to individual immune system idiosyncrasies.As with any cosmetic ingredient, allergic reaction can occur in a small subset of people, usually due to individual immune system idiosyncrasies.
From a systemic toxicity perspective, when the substance is used in cosmetics, the amount that could potentially be absorbed into the body is minimal.Cosmetics are formulated in a way that limits the amount of the substance that can be absorbed by the body. Cosmetic products are formulated in a way that restricts the penetration of ingredients through the skin into the bloodstream.Cosmetic products are designed to limit the penetration of ingredients into the bloodstream through the skin. As long as the usage levels comply with the regulatory standards set by authorities like the European Union's Cosmetic Regulation or the US Food and Drug Administration's guidelines, the risk of systemic toxicity is negligible.As long as the levels of usage comply with the regulatory standards established by authorities such as the European Union Cosmetic Regulation or the US Food and Drug Administration guidelines, systemic toxicity risks are negligible.
In industrial applications, proper safety measures are also in place.Safety measures are also taken in industrial applications. Workers handling Bio - Isobornyl methacrylate are provided with appropriate protective equipment to prevent direct skin contact and inhalation.Workers handling Bio-Isobornyl Methacrylate receive protective equipment to avoid direct skin contact or inhalation. When used in manufacturing processes for plastics or coatings, the substance is managed in a way that minimizes environmental and human exposure risks.When used in the manufacturing of plastics or coatings, this substance is managed to minimize environmental and human exposure risk.
Overall, with proper handling, formulation, and compliance with regulatory limits, Bio - Isobornyl methacrylate can be safely used in a variety of applications, both in cosmetics and industry.Bio-Isobornyl Methacrylate is safe to use in cosmetics, industry, and other applications with the right formulation and handling. However, continuous monitoring and research are necessary to ensure its long - term safety, especially as new uses and formulations may emerge over time.To ensure its safety over the long-term, it is important to conduct research and monitor the product constantly.
How is Bio-Isobornyl methacrylate produced?
Bio - Isobornyl methacrylate is produced through a multi - step process.Bio - Isobornyl Methacrylate is made in a multi-step process.
The starting material often involves natural terpene - based compounds.Starting material is often terpene-based compounds. Pinene, a common terpene found in pine resin, is a key precursor.Pinene is a common terpene that can be found in pine resin. It is a precursor. Pinene can be obtained from sources like pine oil through fractional distillation.Pinene is obtained by fractional distillation from pine oil and other sources.
The first major step is the conversion of pinene to isoborneol.The first step is to convert pinene into isoborneol. This is typically achieved through a hydration reaction.This is usually achieved by a hydration process. In the presence of an appropriate catalyst, such as an acidic catalyst, pinene reacts with water.Pinene reacts to water in the presence of a suitable catalyst, such an acidic catalyst. The double bond in pinene is broken, and a hydroxyl group is added to form isoborneol.The double bond of pinene is broken and a hydroxyl is added to create isoborneol. This reaction requires careful control of reaction conditions like temperature and pressure to ensure high yields.To ensure high yields, it is important to carefully control the reaction conditions such as temperature and pressure.
Once isoborneol is obtained, the next step is its esterification with methacrylic acid to form bio - isobornyl methacrylate.After obtaining isoborneol, its esterification is performed with methacrylic to produce bio-isobornyl methyl methacrylate. Esterification is a well - known chemical reaction.Esterification is an established chemical reaction. In this case, isoborneol and methacrylic acid react in the presence of an acid catalyst, such as sulfuric acid or p - toluenesulfonic acid.In this case, the isoborneol reacts with methacrylic in the presence an acid catalyst such as sulfuric or p-toluenesulfonic acids. The reaction involves the substitution of the hydroxyl group of isoborneol with the methacryloyl group from methacrylic acid, along with the formation of water as a by - product.The reaction involves the replacement of the hydroxyl groups of isoborneol and methacryloyl groups from methacrylic acids, along with water as a side-product.
To drive the reaction forward and improve the yield, water is often removed during the reaction.Water is often removed from the reaction to improve yield and drive the reaction. This can be achieved through techniques like azeotropic distillation, where an organic solvent that forms an azeotrope with water is added.Azeotropic Distillation is one way to achieve this. An organic solvent that forms azeotropes with water can be added. As the mixture is heated, the azeotrope is distilled off, effectively removing water from the reaction mixture.As the mixture is heated up, the azeotrope is removed, effectively removing the water from the reaction mix.
After the reaction is complete, the reaction mixture contains bio - isobornyl methacrylate, unreacted starting materials, and the catalyst.The reaction mixture contains unreacted materials, the catalyst, and bio-isobornylmethacrylate after the reaction has completed. Purification steps are then necessary.Then, purification steps are required. This may involve washing the mixture with water to remove the catalyst and any water - soluble impurities.It may be necessary to wash the mixture with water in order to remove the catalyst or any water-soluble impurities. Organic solvents can be used to extract the bio - isobornyl methacrylate.Bio - isobornyl methyl methacrylate can be extracted using organic solvents. Further purification can be done through distillation under reduced pressure to separate the product from any remaining unreacted substances and obtain pure bio - isobornyl methacrylate.Purification can be further achieved by distillation at reduced pressure. This will separate the product from unreacted substances, and yield pure bio-isobornyl methyl methacrylate.
What are the advantages of Bio-Isobornyl methacrylate over other materials?
Bio - Isobornyl methacrylate offers several distinct advantages over other materials.Bio-Isobornyl Methacrylate has several distinct advantages over alternative materials.
One significant advantage is its low viscosity.Its low viscosity is a major advantage. Compared to many traditional methacrylates, the low viscosity of Bio - Isobornyl methacrylate allows for easier processing.The low viscosity allows for easier processing compared to traditional methacrylates. In applications such as coatings, adhesives, and inks, it can be more readily formulated and applied.It can be formulated and applied more easily in applications such as adhesives, coatings, and paints. It enables better flow and leveling during the application process, resulting in a smoother and more uniform finish.It allows for better flow and leveling in the application process. This results in a smoother, more uniform finish. This is particularly beneficial in industries where a high - quality, defect - free surface is crucial, like in the automotive and electronics sectors.This is especially beneficial in industries that require a high-quality, defect-free surface, such as the automotive and electronic sectors.
Bio - Isobornyl methacrylate also exhibits excellent weather resistance.Bio-Isobornyl Methacrylate is also highly resistant to weather. It is highly resistant to degradation from sunlight, humidity, and temperature variations.It is highly resistant against degradation caused by sunlight, humidity and temperature changes. This makes it a preferred choice for outdoor applications.It is therefore a popular choice for outdoor applications. For example, in outdoor coatings, it can maintain its physical and aesthetic properties over long periods, preventing issues such as yellowing, chalking, or cracking.It can, for example, maintain its physical and cosmetic properties over a long period of time, preventing issues like yellowing, chalking, or cracking. In contrast, some other materials may deteriorate quickly when exposed to harsh environmental conditions, leading to a need for frequent maintenance or replacement.Some materials, however, may degrade quickly when exposed harsh environmental conditions. This can lead to the need for frequent maintenance and replacement.
Another advantage lies in its origin.Its origin is another advantage. Being bio - based, it has a reduced environmental impact compared to some petrochemical - derived materials.It is bio-based and has a lower environmental impact than some petrochemical-derived materials. In an era where sustainability is highly emphasized, this bio - based nature gives it an edge.This bio-based nature gives the material an edge in an age where sustainability is a major concern. It can contribute to a company's green initiatives and meet the growing consumer demand for more environmentally friendly products.It can help a company to meet its green initiatives, and also satisfy the growing demand from consumers for environmentally friendly products. It also offers a more renewable resource option, reducing dependence on finite fossil fuels.It is also a renewable resource, which reduces dependence on finite fossil energy sources.
In terms of mechanical properties, Bio - Isobornyl methacrylate can enhance the hardness and abrasion resistance of the final product.Bio-Isobornyl Methacrylate has a number of mechanical properties that can improve the final product's hardness and resistance to abrasion. When incorporated into polymers or composites, it can improve their durability.It can increase the durability of polymers and composites when incorporated. For instance, in floor coatings, it can withstand heavy foot traffic and abrasion from furniture movement better than some alternative materials.In floor coatings it can withstand heavy footfall and abrasion caused by furniture movement better than other materials. This property makes it suitable for applications where long - lasting performance under mechanical stress is required.This property makes it ideal for applications that require long-lasting performance under mechanical stress.
Furthermore, it has good compatibility with a wide range of other polymers and additives.It is also compatible with a variety of polymers and additives. This allows for greater flexibility in formulating customized materials.This gives manufacturers more flexibility when formulating customized materials. Manufacturers can blend it with different components to achieve specific performance characteristics, such as adjusting the refractive index for optical applications or modifying the adhesion properties for better bonding in adhesive systems.Manufacturers can mix it with other components to achieve specific performance properties, such as adjusting refractive index in optical applications or modifying adhesion for better bonding. In summary, the combination of its processing ease, weather resistance, environmental friendliness, mechanical performance, and compatibility makes Bio - Isobornyl methacrylate a highly advantageous material in various industries.Bio-Isobornyl Methacrylate is a highly beneficial material for many industries because of its processing simplicity, weather resistance and environmental friendliness.