M-Series
XY Resolution – 30µm to 53µm
Industrial 2K Projector
Open Source System
365nm/385nm/405nm Wavelengths
P4K UHD Series
XY Resolution – 30µm to 65µm
True 4K Projector
Open Source System
385nm/405nm Wavelengths
Pr110 4K Series
XY Resolution – 40µm to 55µm
4K Projector
Open Source System
385nm Wavelength for Bio-compatible Parts
Request a Quote
Just fill in the form below and we’ll get back to you.
Bio-Compatible Parts
The CADworks3D μMicrofluidics Printer gives you the ability to design, print and test microfluidic & Bio-compatible part’s layouts in-house. It allows you to also try other 3D Biocompatible resins in the market as the machine is open source. This helps users find the right resins/material ideal for their research.
Glass-Like Finish
With the Industrial grade projectors on the CADworks3D µMicrofluidics Printers you can achieve glass-like finish on clear parts. On open channels you can achieve high resolution parts starting from 70µm and enclosed parts as fine as 400µm.
Knowledge & Support
The key difference between a general multipurpose off-the- shelf 3D Printer and CADworks μMicrofluidics Edition is knowledge & support. A general multipurpose 3D printer will come with general knowledge & support. The CADworks μMicrofluidics Edition has been specialised for microfluidics applications and the support will be provided by our microfluidics 3D printing specialist.
Request a Sample Pack
Create Master Molds for PDMS
Create reusable master molds within one hour (dependent on height) utilizing the CADWorks3D µMicrofluidics Printer and our proprietary resin developed for PDMS applications. Expect material costs to be approximately $5 per mould (size dependent). Channel size on the part (shown in video & background): 50µm.
Print Clear Chips
Print microfluidic chips with exceptional surface finish, transparency and detail. With the CADworks µMicrofluidics Printer you can achieve print clear chips with ease.
Blog
3D printing paves the way for epifluidic devices with a skin-interfaced microfluidic device for sweat capture
The Tyler Ray team at the University of Hawai’i at Manoa harnesses the CADworks3D Pr110-385 printer and Clear Microfluidic Resin to establish a unqiue class of epidermal microfluidic device, called a ‘sweatainer.’ This device represents a groundbreaking advancement in the collection and analysis of sweat samples. 3D printing paves the way for epifluidic devices with
Design Guide to Clear Encapsulated Devices
Design Guide to Clear Encapsulated Microfluidic Devices < 5 minute read The fabrication of a complete, well-functioning microfluidic device requires a combination of basic 3D printing knowledge, careful planning, and iterative design testing. In this design guide for clear encapsulated microfluidic devices, we explore useful tips and techniques to equip users with the right tools
CADworks3D’s Master Mold for PDMS Device Resin empowers a sustainable and low-cost method for mass-producing LoaD device
Leveraging the CADworks3D PR110 printer and the Master Mold for PDMS Resin, a team of researchers at Sungkyunkwan University in South Korea paved the way for a scalable and green manufacturing process for polydimethylsiloxane (PDMS)-based microfluidic devices. CADworks3D’s Master Mold for PDMS Device Resin empowers a sustainable and low-cost method of mass producing Lab-on-a-Disc Devices