Dymax présente le revêtement conforme Multi-Cure® 9451
A “True” Black Color Offering Enhanced Protection for Superior PCB Performance.
Dymax has announced the release of its newest conformal coating- Multi-Cure 9451. This "true" black material- a single-component, 100% solids, light, and heat-curable conformal coating- is designed to enhance security on PCBs. In addition to its ability to improve circuit reliability in harsh conditions, its opaque black color is intended to cover markings, labeling, other identification as well as sensitive information on the circuit board.
Formulated with a secondary heat cure, 9451 can typically be applied and cured at up to 5 mils thick- in one pass- for applications where shadow areas exist. It's easily dispensed and for thicker coating requirements the material can be applied in multiple passes. It becomes immediately tack free after curing, helping to avoid handling defects such as fingerprints that may be left on the boards if they are handled too soon, or other damage caused by stacking and arranging the printing boards during processing. Moreover, this multi-cure material can be applied to a variety of substrates including glass-reinforced epoxy laminates, glass, and stainless steel with a good bond. In essence, the 9451 coating has been developed to cover sensitive information, yet it not will destroy the board surface if removed. This product is in full compliance with RoHS Directives 2002/95/EC and 2003/11/EC.
Dymax 9451 is yet another addition to the Dymax Conformal Coatings product line, which includes UV/Heat-Curable as well as UV/Moisture-Curable materials in a range of viscosities, all providing circuit board protection, and shadow-curing capabilities. Leur capacité de réticulation en quelques secondes permet un traitement plus rapide, un meilleur rendement et des coûts de production réduits. When cured with Dymax light-curing spot lamps, focused-beam lamps, or flood lamps, they deliver ideal speed and performance. Les lampes Dymax garantissent un équilibre optimal entre rayons UV et lumière visible pour assurer une polymérisation extrêmement rapide et en profondeur.