Our core expertise is in contrast media and advanced pharmaceutical intermediates. The opportunities our products bring to the market are endless.
Borregaard focuses on core capabilities. This allows us to be highly competitive while meeting the demands of the modern pharmaceutical industry.
We pride ourselves on our transparency and commitments to our customers, many of whom have been with us since we started. We believe this is proof of our excellent customer service and high, and consistent quality products. It inspires us to continue to strive for improvement.
Our core products
Borregaard ensures customer loyalty with a tightly controlled manufacturing process that yields stable, high-quality products.
Our pharmaceutical intermediates mainly serve the contrast media market though we hold supply positions to other demanding areas.
Our products can be delivered in volumes and packaging tailored to your needs. However, you may prefer delivery in ISO containers as these can be heat regulated and ensure the stability of our products.
Polyimide Monomers
As an attractive dielectric material, Polyimide Monomers have been widely used in the field of electronics, aerospace, and automobiles fulfilling the increasing need for materials that can perform well under harsh conditions, such as elevated temperatures. Polyimides are an important class of step-growth polymers due to their high-temperature stability, mechanical properties, and superior chemical resistance.
Explore Polyimides (PI) in detail along with their key properties like mechanical, thermal, electrical, etc., and understand what makes them an ideal choice in high-end engineering applications.
Polyimides (PI) are high-performance polymers of imide monomers that contain two acyl groups (C=O) bonded to nitrogen (N). These polymers are known for their high-temperature performance in the 400-500°C range as well as chemical resistance.
They are used to replace the conventional use of glass, metals, and even steel in many industrial applications.
Polyimides offer excellent mechanical properties and thus find use in applications that demand rugged organic materials, e.g.
High-temperature fuel cells
Flat-panel display
Aerospace applications
Chemical and environmental industries
As well as various military applications
Key Facts about Acrylate Monomers
butyl-methacrylate-303957-elite acrylic ester copolymerization is an important technique to achieve systematic tailoring of properties required in a broad range of end-use applications. ; Glacial acrylic acid (GAA) and glacial methacrylic acid (GMMA) are acrylate monomers ;used to functionalize acrylic copolymers.
The short-chain acrylic monomers like methyl methacrylate and other monomers like styrene produce harder, more brittle polymers, with high cohesion and strength characteristics. ; The long-chain monomers like butyl acrylate and 2-ethyl hexyl acrylate enable soft, flexible, tacky polymers with lower strength characteristics. Monomers like ethyl acrylate, butyl methacrylate, and vinyl acetate contribute more intermediate glass transition and hardness values. ; Co-monomers such as acrylonitrile and (meth)acrylamide, can improve solvent and oil resistance.