Tethon 3D Genesis® Development Resin Base, 1 gallon
For experimental use in developing photo curable resins for SLA / DLP 3D printing. Does not 3D print as is. Provides a starting point for photopolymer resin research and development when incorporating solid powders.
Genesis®is a photopolymer development resin base. This formulation is used in the development of new UV curing resin materials for 3D printing.
Genesisdoes NOTprint as is, but can be combined with solid powders, creating a novel 3D print resin. Genesis provides a starting point for photopolymer resin research and development when incorporating solid powders.
Applications for new resin material development exist in many industries including automotive, dentistry, jewelry, biotech and other segments.
Genesis is sold in liter and gallon sizes. Call oremailfor 5 gallon or larger containers.
Genesis is designed for experimental use. Use these guidelines as examples. Experimentation outside of the guidelines is encouraged.
Use your best judgement when mixing in your own solid powders. Tethon 3D does not provide Directions for Use of Genesis, since this is dependent upon the type of material used.
To determine the highest solid load quantity possible for your material, blend a small batch past its saturation point to determine the maximum quantity of powder you will be able to load into Genesis.
Small tests are suggested for first use. Do not use wiper bars until you are comfortable using Genesis.
Cure printed objects in UV box for one hour minimum.
Use increased exposure printer settings when subsequently burning Genesis out of the printed object in a kiln. Increasing post-print curing time may also improve the firing process. Cure the part for an equal amount of time that it took to for printing the object. Rotate it in the UV box to ensure uniform curing.
The firing schedule and maximum sintering temperature for Genesis is dependent upon the vitrification temperature of the material formulated with Genesis. A slow ramp up to 1200F is required to prevent cracking.
Sample Firing Schedule
0 – 600F 50F per hour Hold 1 hour (can go as slow as 25 degrees per hour for thick parts over 5mm)