Hyrel 3D

Hyrel 3D

Share

We design, build, test, and ship our own 3D Printing equipment, with options others can't imagine.

Build surface and bed options for Hyrel 3D EHR (Engine, High Resolution) 04/07/2026

https://www.facebook.com/share/1BB7neEEyh/?mibextid=wwXIfr

Build surface and bed options for Hyrel 3D EHR (Engine, High Resolution) Karl, CTO of Hyrel 3D, explains some of the many options for build plates, heated beds, and electrically isolated beds (for MEW) available for the EHR. Not s...

Different additive manufacturing processes used by UGA on the Hyrel H21 printer. 03/30/2026

https://youtu.be/SPBNdklD3Qs?si=92WAB5qSEON7i4Mz

Different additive manufacturing processes used by UGA on the Hyrel H21 printer. Capabilities of this Hyrel 3D Hydra 21 model include Robocasting, DIW, SEP, SSE, 3DCP, DCC, DPE, HME, FDM, FFF, and VIPS-DIW, as well as lasering, UV curing,...

Details about Hyrel 3D's multi-head printing options. 02/24/2026

https://www.facebook.com/share/16yETyWJUj/?mibextid=wwXIfr

Details about Hyrel 3D's multi-head printing options. Explaining multi-head printing options, including cloning (or parallel printing, where two similar or vastly different extruders extrude or emit at the same ...

Overview of Hyrel 3D's DIW (Direct Ink Writing) options, also known as Robocasting, SEP, and SSE. 02/20/2026

https://www.facebook.com/share/1GDqKf8s8U/?mibextid=wwXIfr

Overview of Hyrel 3D's DIW (Direct Ink Writing) options, also known as Robocasting, SEP, and SSE. 🚀 Stay Connected with Hyrel3DIf you enjoyed this update on our MEW technology, make sure to subscribe and join our community of innovators!* Subscribe to ou...

Overview of Hyrel 3D's DIW (Direct Ink Writing) options, also known as Robocasting, SEP, and SSE. 01/27/2026

https://www.facebook.com/share/1BvQCD7v5t/?mibextid=wwXIfr

Overview of Hyrel 3D's DIW (Direct Ink Writing) options, also known as Robocasting, SEP, and SSE. 🚀 Stay Connected with Hyrel3DIf you enjoyed this update on our MEW technology, make sure to subscribe and join our community of innovators!* Subscribe to ou...

12/23/2021

Season's Greetings from Team Hyrel.

Review of Low-Cost 3D Bioprinters: State of the Market and Observed Future Trends - Anh Tong, Quang Long Pham, Paul Abatemarco, Austin Mathew, Dhruv Gupta, Siddharth Iyer, Roman Voronov, 2021 06/22/2021

Hyrel gets great marks in Review of Low-Cost 3D Bioprinters by Sage Journals.

https://journals.sagepub.com/doi/full/10.1177/24726303211020297

"The major selling point of the Hyrel 3D’s machines is the high level of customization that they possess. For example, customers can select modular print heads of interest from a wide range of options, such as syringe-based extrusion, filament extrusion, and photo-crosslinking heads. Hyrel 3D offers the widest variety of modular print heads from any other company that we have surveyed for this paper. Additionally, the company develops on-demand custom-built print heads. One such example is their “on-the-fly” microfluidic mixing, extrusion, and UV crosslinking one that were developed for the fabrication of heterogeneous tissue scaffolds in collaboration with Professor Hala Zreiqat’s group from the University of Sydney."

Review of Low-Cost 3D Bioprinters: State of the Market and Observed Future Trends - Anh Tong, Quang Long Pham, Paul Abatemarco, Austin Mathew, Dhruv Gupta, Siddharth Iyer, Roman Voronov, 2021 Three-dimensional (3D) bioprinting has become mainstream for precise and repeatable high-throughput fabrication of complex cell cultures and tissue constructs i...

Calibrating travel on the Hyrel EHR 02/26/2021

Calibrating travel on the Hyrel EHR Karl explains how to calibrate pulses per mm on the Hyrel EHR

Poly(lactic acid)-Based Ink for Biodegradable Printed Electronics With Conductivity Enhanced through Solvent Aging 02/15/2021

A poly(lactic acid)-based Ink for Biodegradable Printed Electronics with Conductivity Enhanced through Solvent Aging

https://pubs.acs.org/doi/pdf/10.1021/acsami.0c05196

A paper by a team from CU Boulder Engineering featuring Hyrel 3D equipment.

Poly(lactic acid)-Based Ink for Biodegradable Printed Electronics With Conductivity Enhanced through Solvent Aging Biodegradable electronics is a rapidly growing field, and the development of controllably biodegradable, high-conductivity materials suitable for additive manufacturing under ambient conditions remains a challenge. In this report, printable conductive pastes that employ poly(lactic acid) (PLA) as a....

Advanced 3D-printed EAP actuator applied to high precision large optical-quality surface fabrication: first results 02/15/2021

Advanced 3D-Printed ElectroActive Polymer (EAP) Actuator Applied to High Precision Large Optical-Quality Surface Fabrication: First Results

https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11375/0000/Advanced-3D-printed-EAP-actuator-applied-to-high-precision-large/10.1117/12.2556532.short?SSO=1&tab=ArticleLink

A presentation in Proceedings Volume 11375 of Electroactive Polymer Actuators and Devices (EAPAD) XXII featuring Hyrel 3D equipment.

Advanced 3D-printed EAP actuator applied to high precision large optical-quality surface fabrication: first results SPIE Digital Library Proceedings

3D printing by fused deposition modeling of single- and multi-compartment hollow systems for oral delivery – A review 02/12/2021

3D Printing by Fused Deposition Modeling of Single- and Multi-Compartment Hollow Systems for Oral Delivery - A Review

https://www.sciencedirect.com/science/article/pii/S0378517320301393

A paper by a team from UniversitĂ  degli Studi di Milano featuring Hyrel 3D equipment.

3D printing by fused deposition modeling of single- and multi-compartment hollow systems for oral delivery – A review Feasibility of fused deposition modeling in 3D printing of hollow systems intended to convey different formulations for oral administration has recent…

Want your business to be the top-listed Equipment Service in Norcross?
Click here to claim your Sponsored Listing.

Address


2900 Cole Court
Norcross, GA
30071

Opening Hours

Monday 7am - 7pm
Tuesday 7am - 7pm
Wednesday 7am - 7pm
Thursday 7am - 7pm
Friday 7am - 7pm