1193M-SV05-UR

Ultra-Red™ Fluorescing Multipurpose Medical Device Adhesive

Dymax Ultra-Red™ 1193M-SV05-UR multipurpose medical device adhesive cures upon exposure to UV and/or visible light. 1193M-SV05-UR is designed for rapid dispense and bonding of plastics and metals typically used in the manufacture of syringes and needles.  This product is a tighter-viscosity-range version of the 1193-M family of needle bonders and is ideally suited for high-speed automated needle assembly machines where batch-to-batch consistency is crucial.  This product fluoresces bright red under low-intensity "black" light (365 nm). The bright red fluorescence contrasts extremely well on plastics that naturally fluoresce blue in color (like PVC), and greatly assists with visual inspection of the bond-line area. Bondable substrates include PC, PU, PS, ABS, and stainless steel.

Download  1193M-SV05-UR Data Sheet     Download  Request SDS

Dymax MD® Medical Device adhesives are solvent free and cure upon exposure to light. Their ability to cure in seconds enables faster processing, greater output, and lower processing costs. When cured with Dymax light curing spot lamps, focused beam lamps, flood lamps, or conveyor systems they deliver optimum speed and performance for medical device assembly. Dymax lamps offer the optimum balance of UV and visible light for the fastest, deepest cures. This product is in full compliance with the RoHS Directives 2002/95/EC and 2003/11EC.

Viscosity:  2,800 cP (nominal)

Cured Properties:
Shore hardness: D70
Elongation at break: 200%

Recommended Substrates:
PC; PS; PU; ABS; Stainless Steel

Package Sizes Available*:
10 mL Syringe
30 mL Syringe
160 mL Cartridge
1 Liter Cylinder
15 Liter Tapered Pail
*In Europe materials are sold in g/kg not mL/L
Applications:
Needle bonding
Heat exchanger assembly
Adheres to PC, PS, PU, ABS, and stainless steel

Features:
Solvent free
Fast UV and visible light cure
Ultra-Red™ fluorescing
Narrow viscosity range for batch-to-batch consistency
Recommended for high-speed automation
ISO 10993 tested