Nordson EFD offers a comprehensive selection of high-quality, competitively-priced Side x Side cartridges for packaging and dispensing two-component materials used in automotive, construction,…
The 380mL coaxial cartridge's unique design features a center tube surrounded by an outer “doughnut” tube for consistent 10:1 ratio two-component dispensing.
Nordson EFD offers three types of pistons for use with our cartridge systems – AF (Air Free) Pistons, Multi-Seal with Integral Center Bleed Plug Pistons, and Solid Multi-Seal Pistons.
The u-TAH® Nano is a revolutionary single-use packaging system for mixing and applying two-component “paste-paste” materials with greater precision and ease than others used in the healthcare market.
Optimum® cartridge end caps provide an airtight seal at the top of cartridges. Threaded, self-venting outlet caps prevent leaks and keep air from being introduced into the fluid.
Optimum® cartridge pistons are precision molded from high-density polyethylene to fit perfectly within Nordson EFD cartridges, preventing blow-by and leakage during filling and storage.
Molded from proprietary FDA- and RoHS-compliant polymer, Optimum® cartridges provide exceptional clarity, chemical compatibility, impact strength, and dimensional stability.
Nordson EFD Optimum® ESD-safe black dispensing components prevent static buildup when dispensing adhesives, pastes, coatings, and other assembly fluids used in electronics manufacturing.
Optimum® syringe barrels feature ZeroDraft™ walls with consistent internal diameters that maintain an airtight seal with pistons to ensure accurate, consistent fluid deposits.
Adapters assemblies connect the Nordson EFD Optimum® syringe barrels to the air output of the fluid dispenser unit.
Optimum® tip caps and end caps provide an airtight seal that allow you to pre-fill syringe barrels to save time or seal partially-used syringes between shifts to reduce waste.
Optimum® SmoothFlow™ pistons feature unique channels that prevent air entrapment while providing a smooth profile radius to reduce fluid shear.