| product_name | Acrylic Acid Octyl Ester Monomer |
| CAS_number | 2499-59-4 |
| formula | C11H20O2 |
| molar_mass | 184.28 g/mol |
| boiling_point | 248-250 °C |
| density | 0.87 g/cm³ |
| refractive_index | 1.437 |
| flash_point | 109 °C |
| vapor_pressure | 0.9 mmHg at 25 °C |
| autoignition_temperature | 210 °C |
| melting_point | -63 °C |
| viscosity | 1.8 cP at 25 °C |
| solubility_in_water | insoluble |
What is Acrylic Acid Octyl Ester Monomer and how is it used in industry?
Acrylic Acid
Octyl Ester Monomer, also known as OAEM, is a colorless liquid with a mild odor. It is a
versatile monomer that is commonly used in the production of adhesives, coatings, and
various plastic products. OAEM offers excellent adhesion, weatherability, and resistance to
chemicals, making it a popular choice in various industrial applications.
What are
the key properties of Acrylic Acid Octyl Ester Monomer?
OAEM exhibits properties such
as low volatility, good UV resistance, and excellent adhesion to a wide range of substrates.
It also offers good flexibility, impact resistance, and weatherability, making it suitable
for outdoor applications. OAEM is compatible with a variety of other monomers, allowing for
the formulation of custom blends with desired characteristics.
What are the typical
applications of Acrylic Acid Octyl Ester Monomer?
OAEM is commonly used in the
production of pressure-sensitive adhesives, coatings for automotive and industrial finishes,
and impact-resistant plastics. It is also used in the formulation of sealants, inks, and
specialty films. OAEM's properties make it suitable for applications where durability,
adhesion, and weather resistance are required.
What are the advantages of using
Acrylic Acid Octyl Ester Monomer in formulations?
OAEM offers several advantages,
including excellent adhesion to a variety of substrates, low VOC content, and good UV
resistance. It also provides flexibility and impact resistance, making it a versatile choice
for applications that require durability and performance. OAEM's compatibility with other
monomers allows for the customization of formulations to meet specific
requirements.
How does Acrylic Acid Octyl Ester Monomer contribute to the performance
of adhesives and coatings?
OAEM enhances the performance of adhesives and coatings by
providing strong adhesion, weather resistance, and durability. It improves the flexibility
and impact resistance of the final product, making it suitable for demanding applications.
OAEM also helps reduce VOC content in formulations, making it an environmentally friendly
choice for adhesive and coating production.
What are the environmental and safety
considerations when handling Acrylic Acid Octyl Ester Monomer?
When handling OAEM, it
is important to follow proper safety precautions, such as wearing protective equipment and
working in a well-ventilated area. OAEM should be stored in a cool, dry place away from heat
and sources of ignition. It is important to avoid skin contact and inhalation of vapors, as
OAEM can cause irritation. Proper disposal methods should be followed to prevent
environmental contamination.
How can Acrylic Acid Octyl Ester Monomer be incorporated
into existing formulations?
OAEM can be easily incorporated into existing
formulations by blending it with other monomers or additives. It is compatible with a wide
range of acrylic, vinyl, and polyester resins, allowing for the customization of
formulations to achieve desired properties. The proper balance of OAEM with other components
will ensure optimal performance in the final product.
What are the key factors to
consider when selecting Acrylic Acid Octyl Ester Monomer for a specific
application?
When selecting OAEM for a specific application, it is important to
consider factors such as required adhesion strength, flexibility, weatherability, and
chemical resistance. The compatibility of OAEM with other components in the formulation
should also be taken into account to ensure compatibility and stability. Additionally,
regulatory requirements and environmental considerations should be considered when choosing
OAEM for use in coatings, adhesives, or other products.
What are some common
challenges associated with using Acrylic Acid Octyl Ester Monomer in
formulations?
Some common challenges associated with using OAEM in formulations
include proper handling to minimize exposure, compatibility issues with other components,
and achieving the desired balance of properties in the final product. It is important to
conduct thorough testing and evaluation to ensure that the formulation meets performance
requirements and regulatory standards. Proper storage and disposal of OAEM are also key
considerations to prevent accidents and environmental contamination.
