MICROFLUIDICS
Place porting locations wherever you like! Arrow on left side indicates counter-clockwise-engaging Radulock Ports
Connect successive devices with zero-dead-volume in the ports (tubing volume only)
Readily prepared for research laboratory use, this device has fully-functional hand-finished Radulock ports. Such ports are less easy to use but are great for rapid prototyping - Contact us for .stp files and instructions
Radulock geometry offers an intrinsic high-pressure tubing connection without changing the function of a typical syringe. No connectors required. No chance of needle-stick.
High-Pressure micromixers for short timescale chemical analyses. Shown with 3-way flow splitter and Radulock Syringe for cleaning
High-pressure, low dead-volume, low-cost micro-channel mixers and flow splitters
Radulock ports in a 1.5 mm thick PMMA microfluidic chip. Ready to receive tubing.
Single layer top left and 3 layer multiplexed device bottom-right. Screwing the tube in the stacked Radulock ports allows successive independent engagement of channels from the bottom layer up.
This is an array of (machined) 3/32"OD Radulock inserts. These can be used as: -side-entrance ports in thin devices -bonded inserts for poorly-equipped fab labs -stick-on ports (larger OD) They can be re-shaped or sized to solve a multitude of connection problems
Radulock ports offering high-pressure, zero dead-volume connection to confined, high-flow rate microfluidic chips.
Lab finish. No manifolds to restrict port placement.
Ports can be placed very close together without restriction on location. Proximity is governed only by tubing diameter as long as the web between them has structural integrity.