What Is Low Viscosity Retardant Used For?

Posted by Claire Smith on November 3rd, 2021

DPP-01 is a Low Viscosity Retardant, two-part potting, flame retardant, and encapsulating compound. The product is suitable for compatibility with reflow use and applications, remaining stable for high-temperature and short-term excursions. The classification uses a hardener free of DDM or other aromatic amino alkanes. The flame retardant has a non-halogenated filter and has a \'clean\' type foremost to low poisonousness fumes and smoke emissions.

So, here are some of the application benefits and mixing procedures of the Low Viscosity Retardant

Benefits

The product has compatibility with reflow applications, so residual stability for high-temperature excursions, short-term; efficient potting processes

•          They have low viscosity
•          The Flame retardant meets UL94 V-0
•          Outstanding adhesion to a wide diversity of substrates
•          Combines flame retardancy with ease of applications
•          Exceptional thermal cycling characteristics
•          It has good flexibility
•          ideal for applications with complex geometries or limited spacing
•          It has reliable and excellent chemical and water resistance
•          They bid excellent high-temperature stability
•          They are perfect for applications connecting thermal cycling
•          They withstand risky temperatures for short stages, such as reflow applications
•          RoHS compliant
•          It does not contain abrasive fillers; low wear on dispensing machinery

Applications

The flame retardant is highly versatile and leads to relatively low toxicity fumes, clean and low smoke emissions. It displays brilliant electrical properties and bonds to a varied range of substrata while upholding good organic and water resistance

Also, Flame retardant extracts occupy an essential place within the variety of products. Also, the formulated flame retardant solutions for several industries: plastics, coatings, automotive, wooden paneling, fabrics, and insulation.

Mixing Procedures

·         Resin Packs

The resin and hardener are mixed in the Resin pack by eliminating the clip and moving the fillings inside the package until carefully mixed. To take away the clip, stop both end caps, hold each end of the pack and twitch apart gently. Using the removed clip, take superior care to push pure material from the bends of the bag. Mix it for two to four minutes, depending on the skill of the worker. The resin and hardener are displacing before filler, so the system is ready for use directly after mixing. The angle may be cut from the packet so that it may be helpful as a simple dispenser.

·         Bulk mixing

When mixing, avoid the introduction of extreme amounts of air. An automatic mixing gear is obtainable, combining the resin and hardener precisely in the correct ratio and doing this without air. Containers of Resin and Hardener must be sealed when not in use to stop humidity ingress. Mix the Bulk material carefully before use. Inadequate mixing will result in unreliable or partial curing.