| product_name | Bio-Lauryl acrylate |
| CAS_number | 2156-96-9 |
| formula | C15H28O2 |
| molar_mass | 240.38 |
| property_1 | Liquid at room temperature |
| property_2 | Colorless to light yellow |
| property_3 | Faint odor |
| property_4 | Density: 0.89 g/cm³ at 25 °C |
| property_5 | Boiling point: 278 °C |
| property_6 | Flash point: 110 °C |
| property_7 | Insoluble in water |
| property_8 | Viscosity: Low |
| property_9 | Refractive index: 1.438 |
| property_10 | Stable under recommended storage conditions |
What is Bio-Lauryl acrylate and how is it used in various applications?
Bio-Lauryl
acrylate is a biodegradable, non-toxic chemical compound commonly used as a monomer in the
production of various polymers and copolymers. It is widely utilized in industries such as
adhesives, coatings, textiles, and personal care products due to its excellent adhesion,
durability, and chemical resistance properties.
What are the key benefits of using
Bio-Lauryl acrylate in formulations?
This versatile compound offers several
advantages, including enhanced adhesive strength, improved flexibility, excellent
weatherability, and resistance to water, oil, and solvents. It also exhibits low volatility,
low odor, and high compatibility with other monomers, making it an ideal choice for a wide
range of applications.
How does Bio-Lauryl acrylate contribute to sustainability and
environmental friendliness?
Bio-Lauryl acrylate is derived from renewable resources,
making it a more sustainable alternative to traditional petrochemical-based monomers.
Additionally, its biodegradable nature allows for eco-friendly disposal and reduces the
environmental impact associated with chemical products.
Can Bio-Lauryl acrylate be
customized for specific formulation requirements?
Yes, Bio-Lauryl acrylate can be
easily modified or copolymerized with other monomers to achieve desired properties in
formulations. By adjusting the composition and ratios of monomers, manufacturers can tailor
the performance characteristics of the final product to meet specific application
needs.
What are some common applications of Bio-Lauryl acrylate in the
industry?
Bio-Lauryl acrylate is commonly used in the formulation of
pressure-sensitive adhesives, acrylic emulsions, coatings, textiles, and personal care
products. It provides excellent adhesion to various substrates, improved durability, and
resistance to harsh environmental conditions, making it a popular choice for diverse
applications.
How does Bio-Lauryl acrylate compare to other acrylic monomers in terms
of performance and cost-effectiveness?
Bio-Lauryl acrylate offers comparable or
superior performance to other acrylic monomers, such as methyl acrylate or ethyl acrylate,
in terms of adhesion strength, durability, and chemical resistance. While it may have a
slightly higher cost, its sustainability, biodegradability, and environmental benefits
justify the investment for many manufacturers.
What factors should manufacturers
consider when selecting Bio-Lauryl acrylate for their formulations?
Manufacturers
should consider factors such as the desired properties of the final product, compatibility
with other ingredients, regulatory requirements, environmental considerations, and
cost-effectiveness when selecting Bio-Lauryl acrylate for their formulations. It is
essential to conduct thorough testing and evaluation to ensure the optimal performance of
the product.
What are the storage and handling guidelines for Bio-Lauryl
acrylate?
Bio-Lauryl acrylate should be stored in a cool, dry place away from direct
sunlight, heat, and sources of ignition. It should be kept in a well-ventilated area with
proper containment measures to prevent spills or leaks. Additionally, handling should be
done in accordance with standard safety practices, including the use of personal protective
equipment and proper ventilation.
How can manufacturers stay updated on the latest
developments and innovations in Bio-Lauryl acrylate technology?
Manufacturers can
stay informed about the latest developments and innovations in Bio-Lauryl acrylate
technology by engaging with suppliers, attending industry conferences and events, conducting
research, and collaborating with experts in the field. By staying proactive and informed,
manufacturers can leverage new technologies and advancements to enhance their formulations
and stay competitive in the market.
