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Product Name | Bio-1,5-Pentanediol dimethacrylate |
Cas Number | 2955-12-8 |
Formula | C13H20O4 |
Molar Mass | 240.30 g/mol |
Density | 1.04 g/cm3 |
Boiling Point | 270°C |
Melting Point | N/A |
Flash Point | 114°C |
Viscosity | Not determined |
Solubility | Insoluble in water |
Refractive Index | Not determined |
Monomer Functionality | Dimethacrylate |
Appearance | Clear liquid |
Odor | Slight ester-like |
Stability | Stable under normal conditions |
What is the main用途 of Bio-1%252C5-Pentanediol%2Bdimethacrylate?
Bio - 1,5 - Pentanediol dimethacrylate is a type of monomer with several important applications.Bio - 1,5- Pentanediol Dimethacrylate, a monomer with many important applications.
One of its main uses is in the field of dentistry.Dentistry is one of its most important uses. In dental materials, it plays a crucial role in the formulation of dental composites.It is used in the formulation of composites for dental materials. Dental composites are used for filling cavities, restoring teeth, and creating dental prosthetics.Dental composites can be used to fill cavities, restore teeth, or create dental prosthetics. The addition of Bio - 1,5 - Pentanediol dimethacrylate can enhance the mechanical properties of these composites.Bio - 1,5-Pentanediol Dimethacrylate is added to these composites to improve their mechanical properties. It helps to improve their hardness, wear resistance, and overall durability.It improves their hardness, wear-resistance, and overall durability. This is essential as dental fillings need to withstand the forces exerted during chewing and maintain their integrity over long periods.This is important because dental fillings must be able to withstand the forces of chewing and maintain integrity for long periods. The monomer also contributes to the good adhesion of the composite to the tooth structure, ensuring a secure and long - lasting restoration.Monomer is also important for adhesion, which ensures a long-lasting and secure restoration.
It is also utilized in the production of coatings.It is also used in the production coatings. In coatings applications, Bio - 1,5 - Pentanediol dimethacrylate can be copolymerized with other monomers to create coatings with unique properties.Bio - 1,5-Pentanediol Dimethacrylate is used in coatings to create coatings that have unique properties. These coatings can be used on various substrates, such as metals, plastics, and wood.These coatings are suitable for a variety of substrates including metals, wood, plastics and other materials. The resulting coatings have good chemical resistance, which makes them suitable for protecting surfaces from corrosion, chemicals, and environmental factors.The coatings are chemically resistant, making them ideal for protecting surfaces against corrosion, chemicals, or environmental factors. For example, in the automotive industry, such coatings can be applied to car bodies to prevent rust and improve the appearance of the vehicle.In the automotive industry, for example, these coatings can be used to improve the appearance and prevent rust on car bodies. Additionally, the coatings can have good abrasion resistance, maintaining their smoothness and gloss even under repeated friction.The coatings are also abrasion resistant, retaining their smoothness and shine even after repeated friction.
In the area of 3D printing, Bio - 1,5 - Pentanediol dimethacrylate is valuable.Bio - 1,5-Pentanediol Dimethacrylate has a lot of value in the field of 3D printing. It can be part of the resin formulations used in stereolithography and other photopolymer - based 3D printing techniques.It can be used as part of resin formulations for stereolithography or other photopolymer-based 3D printing technologies. As a monomer, it participates in the photopolymerization process when exposed to light.It is a monomer that participates in photopolymerization when exposed to light. This allows for the precise and rapid formation of 3D structures.This allows for rapid and precise formation of 3D structure. The mechanical properties imparted by this monomer enable the printed objects to have sufficient strength and stability, making it possible to create functional parts, prototypes, and even medical models in 3D printing applications.This monomer has mechanical properties that give the printed objects enough strength and stability to be used in 3D printing.
Overall, Bio - 1,5 - Pentanediol dimethacrylate is a versatile monomer that significantly contributes to the performance and functionality of materials in dentistry, coatings, and 3D printing, among other areas.Overall, Bio – 1,5 - Pentanediol Dimethacrylate, is a versatile polymer that contributes significantly to the performance and functionality in materials used for dentistry, coatings and 3D printing.
How is Bio-1%252C5-Pentanediol%2Bdimethacrylate synthesized?
Bio - 1,5 - Pentanediol dimethacrylate synthesis typically involves the reaction of 1,5 - pentanediol with methacrylic acid or its derivatives.Bio - 1,5-Pentanediol Dimethacrylate Synthesis typically involves the reaction between 1,5-Pentanediol and methacrylic acids or their derivatives.
First, 1,5 - pentanediol is selected as the diol component.The diol component is chosen first. This diol contains two hydroxyl groups which are crucial for the formation of the dimethacrylate.This diol contains hydroxyl groups that are essential for the formation dimethacrylate. The hydroxyl groups can react with the functional groups of the methacrylate - containing compound.The hydroxyl group can react with functional groups in the methacrylate-containing compound.
Methacrylic acid or a derivative like methacryloyl chloride is used as the source of the methacrylate moiety.As a source of methacrylate, methacrylic acid is used or a derivative such as methacryloyl chloride. If methacrylic acid is chosen, a condensation reaction with 1,5 - pentanediol occurs.If methacrylic is used, a reaction of condensation with 1,5-pentanediol will occur. This reaction is usually catalyzed.This reaction is normally catalyzed. Commonly, an acid catalyst such as sulfuric acid or p - toluenesulfonic acid can be used.Commonly, acid catalysts such as sulfuric or p-toluenesulfonic acids can be used. The role of the catalyst is to speed up the reaction by promoting the formation of an ester bond.The catalyst's role is to promote the formation of ester bonds, which speeds up the reaction.
In the reaction, the hydroxyl groups of 1,5 - pentanediol react with the carboxyl group of methacrylic acid.In this reaction, the hydroxyl group of 1,5-pentanediol reacts with the carboxyl of methacrylic. During the process, a molecule of water is eliminated for each ester bond formed.During the reaction, one molecule of water per ester bond is formed. For the synthesis of the dimethacrylate, two such reactions take place, one for each hydroxyl group of the 1,5 - pentanediol.Two such reactions are required to synthesize dimethacrylate. One for each hydroxyl of the 1,5-pentanediol.
If methacryloyl chloride is used instead, the reaction is a nucleophilic substitution reaction.If methacryloylchloride is used, the reaction will be a nucleophilic replacement reaction. The hydroxyl groups of 1,5 - pentanediol act as nucleophiles and attack the carbonyl carbon of methacryloyl chloride.The hydroxyl groups in 1,5-pentanediol are nucleophiles, attacking the carbonyl of methacryloylchloride. Chloride ion is then eliminated, and an ester bond is formed.The chloride ion then is eliminated and an ester is formed. Similar to the reaction with methacrylic acid, two such reactions occur to form Bio - 1,5 - Pentanediol dimethacrylate.Two reactions are carried out in a similar way to the reaction with Methacrylic Acid to form Bio – 1,5 – Pentanediol Dimethacrylate.
After the reaction is complete, the product may need to be purified.Purification may be required after the reaction has been completed. This can be achieved through methods like distillation, extraction, or column chromatography.You can achieve this through methods such as distillation, column chromatography, or extraction. Distillation can separate the product based on its boiling point if the boiling points of the product and other reaction components are significantly different.Distillation can be used to separate the product by its boiling point, if the boiling points are significantly different. Extraction can be used to separate the product into a different phase based on its solubility properties.Extraction can be used as a way to separate a product into different phases based on the solubility of the product. Column chromatography can separate the product from impurities based on the differential adsorption of components on a stationary phase.The column chromatography method can be used to separate the product from the impurities using the differential adsorption on a stationary medium.
What are the safety precautions when handling Bio-1%252C5-Pentanediol%2Bdimethacrylate?
Bio - 1,5 - Pentanediol dimethacrylate is a chemical compound that requires certain safety precautions when being handled.Bio - 1,5- Pentanediol Dimethacrylate, a chemical compound, requires special precautions to be taken when handling.
Firstly, personal protective equipment (PPE) is essential.Personal protective equipment (PPE), is first and foremost, essential. Wear appropriate chemical - resistant gloves.Wear gloves that are resistant to chemicals. Nitrile gloves are often a good choice as they can provide a barrier against potential skin contact with the chemical.Nitrile gloves can be a good option as they provide a barrier to potential skin contact. Skin contact can lead to irritation, and in some cases, more serious effects.Skin contact can cause irritation and, in some cases, even more serious effects. Also, put on safety goggles to protect your eyes.Wear safety goggles as well to protect your eyes. If the compound splashes into the eyes, it can cause severe damage, including corneal abrasions and potential vision loss.If the compound splashes in the eyes, it could cause severe damage including corneal abrasions, and even vision loss. A lab coat or other protective clothing should be worn to prevent the chemical from coming into contact with regular clothing and skin.Wearing a lab coat or other protective clothing will prevent the chemical from coming in contact with clothing and skin.
Secondly, ensure proper ventilation. Work in a well - ventilated area, preferably under a fume hood.Work in an area that is well-ventilated, preferably under the fume hood. Bio - 1,5 - Pentanediol dimethacrylate may emit vapors that can be harmful if inhaled.Inhalation of vapors from Bio - 1, 5 - Pentanediol Dimethacrylate can be harmful. Inhalation of these vapors can irritate the respiratory tract, causing coughing, shortness of breath, and in more severe cases, it may affect the lungs and other internal organs.Inhaling these vapors may cause irritation of the respiratory tract and shortness of breathe. In more severe cases it can affect the lungs or other internal organs. A fume hood effectively removes the vapors from the work area, reducing the risk of inhalation exposure.A fume hood removes the vapors effectively from the work area and reduces the risk of exposure through inhalation.
Thirdly, be careful during storage.Thirdly, take care when storing the compound. Store the compound in a cool, dry place away from heat sources and open flames.Store the compound in an area that is cool and dry, away from heat sources or open flames. It is flammable, and heat or an ignition source could potentially cause a fire or explosion.It is flammable and heat or an ignition could cause a fire. Keep it in a properly labeled container to avoid any confusion and ensure that it is stored separately from incompatible substances.Store it in a container that is clearly labeled to avoid confusion. Also, store it away from other substances. Some chemicals can react violently with Bio - 1,5 - Pentanediol dimethacrylate, leading to dangerous situations.Some chemicals can react violently and cause dangerous situations with Bio - 1, 5 - Pentanediol Dimethacrylate.
Fourthly, in case of accidental exposure, know the appropriate first - aid measures.In the event of accidental exposure to chemicals, you should know what first-aid measures to take. If there is skin contact, immediately wash the affected area with plenty of water for at least 15 minutes.If skin contact occurs, wash the affected area immediately with plenty of water and for at least 15 min. Remove any contaminated clothing during this process.During this process, remove any contaminated clothing. For eye contact, flush the eyes with copious amounts of water for at least 15 minutes and seek immediate medical attention.If you have eye contact, flush your eyes with plenty of water for 15 minutes at least and seek immediate medical care. If inhaled, move to fresh air immediately.If inhaled, get to fresh air as soon as possible. If the person is having difficulty breathing, provide artificial respiration if trained to do so and call for emergency medical help.If the person has difficulty breathing, give artificial respiration to the person if you are trained to do so. Call for emergency medical assistance.
Finally, when disposing of Bio - 1,5 - Pentanediol dimethacrylate, follow all local, state, and federal regulations.When disposing of Bio- 1,5- Pentanediol Dimethacrylate you must follow all local, federal, and state regulations. Do not pour it down the drain or discard it in regular trash as it can be harmful to the environment.Do not dispose of it in the regular trash or down the drain as it may be harmful to the environment. Instead, use proper waste disposal methods designed for chemical waste.Use proper waste disposal methods for chemical waste.
What are the properties of Bio-1%252C5-Pentanediol%2Bdimethacrylate?
Bio - 1,5 - Pentanediol dimethacrylate has several important properties.Bio - 1,5-Pentanediol Dimethacrylate is a product with many important properties.
In terms of chemical structure, it contains two methacrylate groups attached to a 1,5 - pentanediol backbone.It has two methacrylate groups attached on a 1,5-pentanediol molecule. This structure imparts certain reactivity characteristics.This structure confers certain reactivity properties. The methacrylate groups are highly reactive towards polymerization reactions.The methacrylate group is highly reactive to polymerization reactions. They can participate in radical - induced polymerization processes, which is crucial for its use in applications like dental composites and some types of coatings.They can participate in radical-induced polymerization reactions, which is critical for its use in applications such as dental composites and certain types of coatings.
One of its physical properties is its relatively low viscosity.Its low viscosity is one of its physical characteristics. This low viscosity allows for easy handling and processing.This low viscosity makes it easy to handle and process. In dental applications, for example, it can be readily mixed with other components such as fillers and initiators.It can be easily mixed with other components, such as initiators and fillers, in dental applications. It can flow smoothly into the spaces between teeth or dental restorations, ensuring good adaptation and coverage.It can be injected smoothly into the spaces in between teeth or dental restorations. This ensures good coverage and adaptation.
Bio - 1,5 - Pentanediol dimethacrylate also has good mechanical properties after polymerization.After polymerization, Bio - 1,5- Pentanediol Dimethacrylate has also good mechanical properties. The polymerized material exhibits a certain degree of hardness and strength.The polymerized material has a certain level of hardness and strength. This makes it suitable for applications where durability is required.It is therefore suitable for applications that require durability. In dental fillings, it needs to withstand the forces of chewing, and its mechanical properties enable it to do so without easily breaking or deforming.It is used in dental fillings because it can withstand the forces from chewing without breaking or deforming.
It shows some degree of biocompatibility.It has a certain degree of biocompatibility. The "Bio -" in its name indicates that it is designed to be relatively well - tolerated by biological tissues.The "Bio-" in the name indicates that this product is designed to be well-tolerated by biological tissues. When used in dental or medical - related applications, it should not cause significant adverse reactions in the body.It should not cause any significant adverse reactions when used in dental and medical applications. This biocompatibility is important as it ensures the safety of patients when the material comes into contact with oral tissues or other biological systems.This biocompatibility ensures patient safety when the material comes in contact with oral tissue or other biological systems.
In addition, it has good solubility in certain organic solvents.It is also soluble in certain organic solvents. This solubility property is useful during the formulation stage.This property of solubility is very useful in the formulation phase. It can be dissolved in solvents to create homogeneous mixtures with other ingredients, facilitating the preparation of coatings, adhesives, or dental materials.It can be dissolved into solvents to produce homogeneous mixtures. This makes it easier to prepare coatings, dental materials, or adhesives. Overall, these properties make Bio - 1,5 - Pentanediol dimethacrylate a valuable material in various industries, especially those related to dental and biomedical applications.These properties make Bio – 1,5 – Pentanediol Dimethacrylate an important material for many industries, including those that are related to biomedical and dental applications.
What are the applications of Bio-1%252C5-Pentanediol%2Bdimethacrylate in different fields?
Bio - 1,5 - Pentanediol dimethacrylate has several applications in different fields.Bio - 1,5-Pentanediol Dimethacrylate is used in many different fields.
In the dental field, it is used in dental restorative materials.In the dental field it is used as a component of dental restorative materials. It can be part of the resin - based composites that are used to fill cavities.It can be used in the resin-based composites used to fill cavities. Its chemical structure allows it to polymerize under specific conditions, such as when exposed to light.Its chemical structure allows for it to polymerize in certain conditions, like when exposed to light. This property enables dentists to mold the material to fit the shape of the cavity precisely.This property allows dentists to precisely mold the material into the shape of the cavity. Once polymerized, it provides good mechanical strength, which is crucial for withstanding the forces of chewing.Once polymerized it provides good mechanical resistance, which is essential for withstanding forces of chewing. The biocompatibility aspect of the bio - 1,5 - pentanediol dimethacrylate is also important as it comes in contact with oral tissues and should not cause adverse reactions.Biocompatibility is important, as the bio - 1, 5 - pentanediol dimethylacrylate comes into contact with oral tissues.
In the field of 3D printing, this compound can be used as a monomer in the formulation of printable resins.This compound can be used in the 3D printing field as a monomer to formulate printable resins. Due to its ability to cross - link, it helps in creating solid and stable 3D structures.Its ability to cross-link helps create solid and stable 3D structure. When used in combination with other additives and photo - initiators, it can be cured by light sources, such as ultraviolet or visible light, during the 3D printing process.It can be cured using light sources such as visible or ultraviolet light when used in conjunction with other additives. This allows for the production of detailed and complex 3D objects with a high degree of accuracy.This allows for the creation of complex and detailed 3D objects that are highly accurate.
In the coatings industry, bio - 1,5 - pentanediol dimethacrylate can be incorporated into coatings.Bio - 1,5- pentanediol dimethylacrylate is a material that can be used in the coatings industry. It can enhance the hardness and abrasion resistance of the coatings.It can increase the hardness and resistance to abrasion of the coatings. For example, when applied on surfaces like furniture or automotive parts, it provides a protective layer that can withstand daily wear and tear.When applied to surfaces such as furniture or automotive parts, the coating can provide a protective layer which can withstand everyday wear and tear. Additionally, it can contribute to the chemical resistance of the coating, protecting the underlying substrate from environmental factors such as moisture and chemicals.It can also contribute to the chemical resistance, protecting the substrate from environmental factors like moisture and chemicals.
In the biomedical device manufacturing, it can be used in the production of some implantable devices.It can be used to produce some implantable devices in the biomedical device industry. Its biocompatibility makes it suitable for applications where the device will be in contact with the body's tissues.Its biocompatibility makes the material suitable for applications in which the device will come into contact with body tissues. It can be used to form the structure of certain drug - delivery systems.It can be used as the structure for certain drug-delivery systems. The cross - linking ability can be controlled to design systems that release drugs at a specific rate over time, ensuring a sustained and targeted drug delivery.It is possible to control the cross-linking ability in order to design systems which release drugs at a certain rate over time. This ensures a sustained and focused drug delivery.
Overall, bio - 1,5 - pentanediol dimethacrylate is a versatile compound with significant potential in various fields due to its polymerization, mechanical, and biocompatible properties.Bio - 1,5-pentanediol Dimethacrylate, a versatile compound, has significant potential for use in many fields because of its mechanical, polymerization and biocompatible properties.