MAX-G™ 20% Glass Fiber Reinforced PETG
MAX-G™ GF20 PETG is a structural grade of PETG Copolyester that expands your capabilities for adding strength and toughness to your printed part. We chose a specialty grade of glass fiber reinforcement that was ideal for co-polyester and 3D Printing.
This filament is suitable for use in practically any desktop 3D Printer that has a heated bed. Glass fiber is very abrasive and we strongly recommend using our A2 Hardened Steel Nozzles when printing with glass fiber reinforced materials - HERE
Benefits of MAX-G™ GF20 PETG include:
- Structural properties - improved strength and stiffness - without being brittle
- Improved dimensional stability - glass fibers reduce shrinkage, lifting, and warp
- Superior Chemical Resistance vs. ABS and PLA
- Lower moisture absorption: 3X lower vs. ABS, 5X lower than Nylon
- Ease of printing - excellent layer bonding
Chemical Resistance: Unstressed tensile bars molded of PETG exhibit good resistance to dilute aqueous solutions of mineral acids, bases, salts, and soaps, and to aliphatic hydrocarbons, alcohols, and a variety of oils. Halogenated hydrocarbons, short chain length ketones, and aromatic hydrocarbons dissolve or swell the plastic.
Recommended Print Conditions:
- Extruder: Ideally 245 to 260°C
- Bed Temp: 60 to 70C
- Bed Prep: Hairspray or PVA glue on clean glass, perf board, PEI sheet. We have had great results using a thick coat of Aquanet hair spray on clean glass. We make sure the first layer is pressed into the bed for extra grip to reduce lifting.
- Hardened Nozzle: 0.4mm or larger. Glass fiber is very abrasive and will quickly wear out a brass nozzle. We strongly recommend using our A2 Hardened Steel Nozzles - HERE
- Layer Height: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers below 0.25mm with glass fiber grades. Lower than 0.25mm may create too much back pressure in the hot end and result in poor feeding, jams, drive gear clicking, and eating a notch into the filament.
- Support: Our Aquatek water soluble support works great to create complex parts. This support can be found HERE.
- Drying Instructions: Please see the following instructions for when you want to dry out this filament, HERE.