Difference between revisions of "Main Page"
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As of Jan, 2016, Hyrel Printers are available in two models: [[Engines]] and [[Systems]]. | As of Jan, 2016, Hyrel Printers are available in two models: [[Engines]] and [[Systems]]. | ||
=== | ===Engines=== | ||
[[Engines] are open-air models. Detailed information is on the [[Engines]] page. | [[Engines]] are open-air models. Detailed information is on the [[Engines]] page. | ||
=== | ===Systems=== | ||
[[Systems]] are enclosed models. Detailed information is on the [[Systems]] page. | [[Systems]] are enclosed models. Detailed information is on the [[Systems]] page. | ||
Revision as of 17:59, 28 January 2016
With literally thousands of materials to print on the Hyrel Printer, we have broken down the list of materials into logical groups based on their printing temperature and type of head used to print them.
If you are planning on using the heads which photoinitiate crosslinking, make sure you specify the correct wavelength of LED for your material.
A standard material printing data sheet has been created for materials that have been internally tested; you can access this data by clicking on the material name below.
Printers
As of Jan, 2016, Hyrel Printers are available in two models: Engines and Systems.
Engines
Engines are open-air models. Detailed information is on the Engines page.
Systems
Systems are enclosed models. Detailed information is on the Systems page.
Cold Flow
Cold Flow means fluid (non-filament-based) materials which are deposited at room temperature, with or without UV Crosslinking.
Materials, Cold Flow
- 3P Quick Cure Clay
- Adhesives
- Clay
- Epoxy, Two-part
- Fimo
- Glue
- Kato
- Metal Clay, including Precious Metal Clay (PMC)
- Modeling Clay
- PEG
- Porcelain
- Plasticine
- Play-Doh
- Resins
- RTV Silicone
- Sculpey
- Sugru
Heads, Cold Flow
| Head | Container | Capacity | Nozzle | UV Crosslinking |
|---|---|---|---|---|
| EMO-25 | Aluminum | 25cc | 1.5mm, 2.0mm, Luer | No |
| COD-25 | Aluminum | 25cc | Luer | Yes |
| SDS-5 | Syringe | 05cc | Luer | No |
| CSD-5 | Syringe | 05cc | Luer | Yes |
| SDS-10 | Syringe | 10cc | Luer | No |
| CSD-10 | Syringe | 10cc | Luer | Yes |
| SDS-30 | Syringe | 30cc | Luer | No |
| CSD-30 | Syringe | 30cc | Luer | Yes |
| SDS-60 | Syringe | 60cc | Luer | No |
| CSD-60 | Syringe | 60cc | Luer | Yes |
Research Papers Citing Hyrel Cold Flow
- Bioactive Nanoengineered Hydrogels for Bone Tissue Engineering: A Growth-Factor-Free Approach in The American Chemical Society's ACS Nano
- Design and Fabrication of 3D Printed Scaffolds with a Mechanical Strength Comparable to Cortical Bone to Repair Large Bone Defects in Nature.com's Scientific Reports
Warm Flow
Warm Flow means fluid (non-filament-based) materials which are deposited at up to 100°C, with or without UV Crosslinking.
Materials, Warm Flow
Note that some materials (like Fimo, Plasticine and Sculpey) flow more freely when slightly above room temperature, and perhaps too freely at higher temperatures.
Heads, Warm Flow
| Head | Max Temp | Container | Capacity | Nozzle | UV Crosslinking |
|---|---|---|---|---|---|
| VOL-25 | 100°C | Aluminum | 25cc | 1.5mm, 2.0mm, Luer | No |
| VCD-25 | 100°C | Aluminum | 25cc | Luer | Yes |
| KRA-15 | 150°C | Stainless | 15cc | 1.5mm, 2mm, Luer | No |
| KCD-15 | 150°C | Stainless | 15cc | Luer | Yes |
Hot Flow
Hot Flow means 1.75mm diameter, filament-based materials which are deposited at up to 250°C, with
Materials, Hot Flow
Heads, Hot Flow
| Head | Min Temp | Max Temp | Filament Type | Nozzle | Recommended For |
|---|---|---|---|---|---|
| MK1-250 | 150°C | 250°C | Standard | .35mm, .50mm, .75mm, 1.0mm | ABS, LayBrick, LayWood, Nylon PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase |
| MK2-250 | 150°C | 250°C | Flexible | .35mm, .50mm, .75mm, 1.0mm | BendLay, FilaFlex, Flex45, NinjaFlex, PlastInk Rubber |
| MK1-450 | 250°C | 450°C | Engineering | .50mm | PC, PEEK |
Research Papers Citing Hyrel Hot Flow
- Demonstration and Characterization of Fully 3D-printed RF Structures, The Institute of Electrical and Electronics Engineers, Incorporated (IEEE)
- Infill Dependent 3D-Printed Material Based on NinjaFlex Filament for Antenna Applications, The Institute of Electrical and Electronics Engineers, Incorporated (IEEE)
- A Novel Strain Sensor Based on 3D Printing Technology and 3D Antenna Design, The Institute of Electrical and Electronics Engineers, Incorporated (IEEE)
- A Novel 3-D Printed Loop Antenna Using Flexible NinjaFlex Material for Wearable and IoT Applications, The Institute of Electrical and Electronics Engineers, Incorporated (IEEE)
- RF Characterization of 3D Printed Flexible Materials - NinjaFlex Filaments, The European Microwave Association (EuMA)