Watch our on-demand webinar to learn how to optimize the adhesive selection process and ensure your medical device meets the highest standards. Explore published case studies that delve into the specific adhesive chemistries and application techniques used in successful medical device applications.
Master Bond’s video library presents engineers with an extensive variety of videos that cover topics ranging from packaging to product highlights, from "how-to" demonstrations to best practices for using epoxies, and more. Browse through our library for a look at what Master Bond has to offer.
UV15RCL adhesive is a UV curable, optically clear compound that changes from red to clear once exposed to UV light. This distinctive feature gives users the confidence that penetration of UV light is taking place across the adhesive material, ensuring a thorough and effective curing process.*
While bonding thermoplastic polyurethanes (TPUs) is known to be challenging, Master Bond has formulated UV17Med, a UV curable adhesive specially formulated for TPU to TPU bonding. This compound passes ISO 10993-5 for cytotoxicity making it ideal for use in various medical device applications. Watch this video to learn more.
Master Bond EP4S-80 is a one component, silver filled epoxy for bonding, sealing and coating. This NASA low outgassing approved system cures at the low temperature of 80˚C and bonds well to a variety of substrates.
Watch this video to see how this low viscosity compound can be dispensed through a syringe or brushed on to create a protective coating.
Watch this video to learn about dual curing adhesives that use both UV light, as well as heat for curing.
These adhesives are ideal for use where complete UV curing is either too difficult or impossible to achieve, such as applications with complex geometries and concealed, “shadowed out” areas.
With its thin bond line thickness and low viscosity, EP4EN-80 is ideal for bonding, encapsulating and potting applications. Watch a real-life demonstration of how this epoxy compound can be used while observing its flowability and ease of use.