PET-GF is specially developed for FDM 3D printing process, and its substrate material is PET engineering plastic with low moisture absorption, high strength, creep resistance, excellent chemical resistance and high heat resistance. With good dimensional stability, no warpage and no shrinkage and no smell, no heating chamber are required during the printing process. It can be used with FusFree™ S-Multi Quick-Remove Support Material to solve the problem of poor molding effect of supporting surface of complex model.
Product highlights
Smart Fiber Reinforced Technology
FusRock® controlling the dispersion and distribution of chopped Glass fibers within the material matrix during the extrusion process, the fibers form a mesh skeleton structure within the material and bear most of the load transferred by the material matrix. Smart Fiber Reinforced Technology greatly improves the mechanical properties and heat resistance of the material, and releases the internal stress during the printing process through the fiber mesh structure, resulting in good dimensional stability of the printed part and no warpage.
Low creep
The molecular chain structure of PET is highly regular and has a rigid benzene ring structure, so that PET has better mechanical properties and less deformation under long-term load. Compared with PA and PC materials, PET has better creep-resistance.
Product introduction
PET-GF is specially developed for FDM 3D printing process, and its substrate material is PET engineering plastic with low moisture absorption, high strength, creep resistance, excellent chemical resistance and high heat resistance. With good dimensional stability, no warpage and no shrinkage and no smell, no heating chamber are required during the printing process. It can be used with FusFree™ S-Multi Quick-Remove Support Material to solve the problem of poor molding effect of supporting surface of complex model.
Product details
| Parameter | Value / range |
|---|---|
| Color | Natural, Red, Orange, Blue, Grey, Black |
| Filament Ø | 1.75 mm |
| Net weight | 2.5 / 3 kg |
Material properties
Physical properties
| Property | Test method | Typical value |
|---|---|---|
| Density | ISO 1183 | 1.38 g/cm³ |
| Water absorption | ISO 62: Method 1 | 0.5 % |
| Melting temperature | ISO 11357 | 251 °C |
| Melt index | - | 270 g/10min |
Thermal properties
| Property | Test method | Unit | Unannealed | Annealed | Annealed + moisture conditioning |
|---|---|---|---|---|---|
| HDT A | ISO 75: Method A (1.80 MPa) | °C | 73.9 | 99.1 | - |
| HDT B | ISO 75: Method B (0.45 MPa) | °C | 77.4 | 120.3 | - |
Mechanical properties
| Property | Test method | Unit | Unannealed | Annealed | Annealed + moisture conditioning |
|---|---|---|---|---|---|
| Tensile Strength XY | ISO527 | MPa | 64.65 ± 3.12 | 70.86 ± 2.86 | - |
| Tensile Modulus XY | ISO527 | MPa | 4011.36 ± 292.39 | 4130.13 ± 107.0 | - |
| Elongation at Break XY | ISO527 | % | 2.53 ± 0.38 | 2.56 ± 0.30 | - |
| Flexural Strength XY | ISO178 | MPa | 98.62 ± 0.84 | 114.87 ± 3.0 | - |
| Flexural Modulus XY | ISO178 | MPa | 3201.0 ± 57.42 | 3650.32 ± 65.81 | - |
| Notched Impact XY | ISO179 | kJ/m² | 12.68 ± 1.61 | 6.56 ± 0.68 | - |
| Tensile Strength Z | ISO527 | MPa | 33.95 ± 2.38 | - | - |
| Tensile Modulus Z | ISO527 | MPa | 3322.37 ± 94.04 | - | - |
| Elongation at Break Z | ISO527 | % | 1.14 ± 0.11 | - | - |
Printed specimen parameters:试样打印参数:喷嘴温度320°C,底板加热80°C,打印速度45mm/s,填充率100%,填充角度±45°
Disclaimer
Fusrock® 3D printing filaments are suitable for general printing applications and have been tested under standard conditions. However, the performance and safety of printed products are influenced by multiple factors, including printing parameters, model design, operating environment, and intended use. By using Fusrock® materials, users acknowledge and agree to independently evaluate the suitability of printed items for their specific applications and assume all associated risks. Fusrock® shall not be held liable for any damages, injuries, or losses resulting from the practical use of products printed with its materials, including but not limited to structural failures, malfunctions, or safety hazards in operational environments. Thorough testing must be conducted before applying printed components to critical, functional, or commercial scenarios. Fusrock® products are not certified for medical, aerospace, or life-support systems, except for certifications explicitly stated by Fusrock® for specific materials.
