| product_name | Lauryl methacrylate |
| CAS_number | 142-90-5 |
| formula | C16H30O2 |
| molar_mass | 254.41 g/mol |
| density | 0.872 g/cm³ |
| boiling_point | 295-298 °C |
| flash_point | 110 °C |
| refractive_index | 1.442 |
| viscosity | 6.5 mPa.s at 20°C |
| appearance | Clear, colorless liquid |
| odor | Ester-like |
| vapor_pressure | 0.067 hPa at 25 °C |
| solubility_water | Insoluble |
| melting_point | -20 °C |
| autoignition_temperature | 310 °C |
What is Lauryl Methacrylate?
Lauryl Methacrylate, also known as LMA, is a monomer that is
commonly used in the production of various polymers and resins. It is a clear liquid with a
characteristic odor, and it is soluble in many organic solvents. LMA is an important
ingredient in many industrial applications due to its excellent adhesion properties,
chemical resistance, and durability.
How is Lauryl Methacrylate used in industrial
applications?
Lauryl Methacrylate is used in a wide range of industrial applications,
including coatings, adhesives, sealants, and plastics. In coatings, LMA is used to improve
adhesion to various substrates, enhance UV resistance, and increase durability. In adhesives
and sealants, LMA helps to promote bonding strength and flexibility. In plastics, LMA is
used to improve impact resistance, weatherability, and chemical resistance.
What are
the benefits of using Lauryl Methacrylate in industrial applications?
There are several
benefits to using Lauryl Methacrylate in industrial applications. One of the main benefits
is its excellent adhesion properties, which help to create strong bonds between different
materials. LMA also offers good chemical resistance, making it ideal for applications where
exposure to harsh chemicals is a concern. Additionally, LMA can improve the durability and
weatherability of coatings and plastics, leading to longer-lasting products.
Are
there any safety considerations when handling Lauryl Methacrylate?
Like any chemical
substance, Lauryl Methacrylate should be handled with care to ensure safety. It is important
to wear appropriate personal protective equipment, such as gloves and goggles, when handling
LMA. Additionally, LMA should be stored in a well-ventilated area away from sources of
ignition. In case of skin contact, it is important to wash the affected area thoroughly with
soap and water.
Can Lauryl Methacrylate be customized for specific
applications?
Yes, Lauryl Methacrylate can be customized to meet the specific
requirements of different applications. By adjusting the formulation and polymerization
conditions, the properties of LMA can be tailored to achieve desired performance
characteristics. This allows manufacturers to create custom solutions that address the
unique needs of their applications.
What sets Lauryl Methacrylate apart from other
monomers?
Lauryl Methacrylate stands out from other monomers due to its unique
combination of properties. Its excellent adhesion, chemical resistance, and durability make
it a versatile ingredient in a variety of industrial applications. Additionally, LMA is
compatible with many other monomers and additives, allowing for flexibility in
formulation.
Is Lauryl Methacrylate environmentally friendly?
Lauryl Methacrylate
is considered to be relatively environmentally friendly compared to other monomers. It is
non-toxic and does not pose a significant risk to human health when used as directed.
Additionally, LMA is biodegradable under certain conditions, which can help to reduce its
environmental impact.
What are some common applications of Lauryl Methacrylate in the
coatings industry?
In the coatings industry, Lauryl Methacrylate is used in a variety of
applications, including architectural coatings, automotive coatings, and industrial
coatings. In architectural coatings, LMA is used to improve adhesion to substrates and
enhance durability. In automotive coatings, LMA helps to provide UV resistance and chemical
resistance. In industrial coatings, LMA is used to create protective coatings that withstand
harsh environments.
Can Lauryl Methacrylate be used in combination with other
monomers?
Yes, Lauryl Methacrylate can be used in combination with other monomers to
achieve specific performance characteristics. By blending LMA with other monomers,
manufacturers can create custom formulations that meet the requirements of different
applications. This versatility makes LMA a valuable ingredient in the development of
advanced coatings, adhesives, and plastics.
What are the key factors to consider when
selecting Lauryl Methacrylate for an application?
When selecting Lauryl Methacrylate for
an application, several key factors should be considered. These include the desired
performance characteristics, such as adhesion, chemical resistance, and durability. Other
factors to consider include compatibility with other additives and monomers,
cost-effectiveness, and regulatory compliance. By evaluating these factors, manufacturers
can determine the best formulation of LMA for their specific application requirements.
