| 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 Bio-1,5-Pentanediol dimethacrylate?
Bio-1,5-Pentanediol dimethacrylate, also
known as PDDA, is a versatile chemical compound used in various industrial applications. It
is a type of dimethacrylate monomer that is widely used in the production of polymers,
coatings, adhesives, and other materials.
What are the key properties of
Bio-1,5-Pentanediol dimethacrylate?
Bio-1,5-Pentanediol dimethacrylate exhibits
excellent thermal stability, high purity, low viscosity, and good compatibility with other
monomers and ingredients. It also offers exceptional resistance to abrasion, chemicals, and
environmental factors, making it a popular choice for applications requiring durable and
high-performance materials.
What are the common uses of Bio-1,5-Pentanediol
dimethacrylate?
Bio-1,5-Pentanediol dimethacrylate is commonly used in the
formulation of dental materials, such as dental composites and adhesives, due to its
excellent mechanical properties and biocompatibility. It is also used in the production of
industrial coatings, optical materials, and electronic devices.
How is
Bio-1,5-Pentanediol dimethacrylate manufactured?
Bio-1,5-Pentanediol dimethacrylate
is typically synthesized through the reaction of pentanediol with methacrylic acid under
controlled conditions. The resulting product is then purified and processed into a liquid
monomer ready for use in various applications.
What are the advantages of using
Bio-1,5-Pentanediol dimethacrylate in dental materials?
Bio-1,5-Pentanediol
dimethacrylate offers several advantages in dental applications, including excellent
adhesion to tooth structures, low shrinkage during polymerization, and high strength and
durability. It also provides improved aesthetics and biocompatibility compared to other
monomers.
How can Bio-1,5-Pentanediol dimethacrylate contribute to the development of
advanced materials?
Bio-1,5-Pentanediol dimethacrylate can be used to enhance the
performance and properties of advanced materials by improving their mechanical strength,
chemical resistance, and processing characteristics. It enables the development of new
materials with superior durability and functionality for various applications.
What
quality control measures are in place to ensure the reliability of Bio-1,5-Pentanediol
dimethacrylate?
Bio-1,5-Pentanediol dimethacrylate undergoes rigorous quality control
tests to ensure its purity, consistency, and performance. These tests include analysis of
chemical composition, physical properties, and functionality to meet industry standards and
customer requirements.
What technical support is available for incorporating
Bio-1,5-Pentanediol dimethacrylate into specific applications?
Technical support is
available from expert chemists and engineers to assist customers in formulating and
optimizing their products using Bio-1,5-Pentanediol dimethacrylate. They provide guidance on
monomer selection, processing parameters, and compatibility with other ingredients to
achieve desired performance and properties.
How can I learn more about the benefits
and applications of Bio-1,5-Pentanediol dimethacrylate?
For more information about
Bio-1,5-Pentanediol dimethacrylate, its benefits, applications, and technical
specifications, please contact our customer service team or visit our website for resources,
case studies, and product information.
