raise3d-industrial-pet-gf-filament
raise3d-industrial-pet-gf-filament
raise3d-industrial-pet-gf-filament
raise3d-industrial-pet-gf-filament
raise3d-industrial-pet-gf-filament
raise3d-industrial-pet-gf-filament

Raise3D Industrial PET GF Filament - RFID

Brand: Raise3D

Regular price $147.00 $103.00 On Sale

Estimated Arrival: Between Jul 14 and Jul 20.

Shipping: Free Fast Shipping for Most Orders Over $199!*
*Eligibility varies by product.

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Raise3D Industrial PET GF Filament - RFID

Colors:

  • Red: (PMS: 3546 C / RAL: 3024)
  • Gray: (PMS: 429 C / RAL: 7040)
  • Orange: (PMS: 151 C / RAL: 2007)
  • Black: (PMS: 446 C / RAL: 9017)

Raise3D Industrial PET GF is a glass fiber-reinforced composite filament based on PET (Polyethylene terephthalate). Well-dispersed glass fibers enhance the rigidity, strength, heat, and chemical resistance of PET matrix. After annealing, PET GF stabilizes its heat resistance at around 120 ℃, with tensile modulus and strength of over 4.1 GPa and 70 MPa respectively. Compared to glass fiber-reinforced Nylon filament, the high printability, dimensional stability, high creep resistance, and low moisture absorption makes PET GF an ideal choice for reliable glass fiber composite printing for strong and cost-effective end-use applications, such as jigs & fixture and functional parts. In addition, PET GF provides multiple color choices.

This filament is compatible with Raise3D Industrial PET Support Filament.

About the RFID version filament

This version comes with an RFID tag. When printed on the Pro3 HS Series 3D printers, the Pro3 HS Series RFID filament sensor can identify the filament type and verify the print parameters. However, this type of RFID-enabled filament can also be used on other compatible Raise3D 3D printers, even if the printer is not equipped with an RFID sensor.


*Due to the higher carbon fiber content of PET filaments, when printing PET GF, an extra wear-resistant nozzle and extrusion system are required for a consistent printing performance. The E2CF and the RMF500 are specially designed for printing high-performance fiber-reinforced composite filaments. As such, it is recommended to use the Raise3D Industrial PET GF filament exclusively on the E2CF and the RMF500.

Safety Data Sheet

Specifications:

1.75 mm/ 1 kg

Property Testing Method Typical Value
Density (g/cm3
)
ISO 1183, GB/T 1033 1.38
Heat Deflection Temperature (°C) ISO75 1.8MPa 99
ISO75 0.45 MPa 120
Melt index (g/10 min) 270 °C, 2.16 kg 5.3
Water absorption ISO 62: Method 1 0.50%
Odor / Almost odorless
Solubility / Insoluble in water

 

Mechanical Properties
Property Testing Method Typical value
Young’s modulus (X-Y) ISO 527, GB/T 1040 4130 ± 107 MPa
Young’s modulus (Z) ISO 527, GB/T 1040 3322 ± 94 MPa
Tensile strength (X-Y) ISO 527, GB/T 1040 71 ± 3 MPa
Tensile strength (Z) ISO 527, GB/T 1040 34 ± 2 MPa
Elongation at break (X-Y) ISO 527, GB/T 1040 2.56 ± 0.30%
Elongation at break (Z) ISO 527, GB/T 1040 1.14 ± 0.11%
Bending modulus (X-Y) ISO 178, GB/T 9341 3650 ± 66 MPa
Bending strength (X-Y) ISO 178, GB/T 9341 115 ± 3 MPa
Charpy impact strength (X-Y) ISO 179, GB/T 1043 6.56 ± 0.68 kJ/m2

Note: All testing specimens were printed under the following conditions: Nozzle temp 320℃ , Bed temp 80℃ , Print speed 45mm/s, Infill 100%, Infill angle ±45° All specimens were annealed at 100˚C for 8h

Note:
1. Dry PET GF at 70-80°C for 8-12 hours before printing, as low moisture content is crucial for final printed part quality.
2. After drying, we recommend to store PET GF filaments into Raise3D Filaments Dry Box during the printing. 
3. Abrasion of the brass nozzle happens frequently when printing PET GF. Using abrasion resistance nozzle, such as hardened steel and ruby nozzle, is highly recommended.
4. After the printing, it is recommended to anneal the model in the oven at 80-100°C for 8-12 hours.
5. For a small size model (side length <50 mm), annealing at 80°C for 8 hours is recommended; For a medium-size model (50mm<side length <150 mm), annealing at 80°C for 12 hours is recommended; For a large size model, 100°C for at least 12 hours is recommended. 
6. After annealing, a maximum of 0.1 % dimensional shrinkage could be observed along the Z-axis, depending on infill and layer height, and no significant dimensional shrinkage along the XY-axes
7. If PET GF is used as the support material for itself, please remove the support structure after annealing.

1.75 mm/ 1 kg

Property Testing Method Typical Value
Density (g/cm3
)
ISO 1183, GB/T 1033 1.38
Heat Deflection Temperature (°C) ISO75 1.8MPa 99
ISO75 0.45 MPa 120
Melt index (g/10 min) 270 °C, 2.16 kg 5.3
Water absorption ISO 62: Method 1 0.50%
Odor / Almost odorless
Solubility / Insoluble in water

 

Mechanical Properties
Property Testing Method Typical value
Young’s modulus (X-Y) ISO 527, GB/T 1040 4130 ± 107 MPa
Young’s modulus (Z) ISO 527, GB/T 1040 3322 ± 94 MPa
Tensile strength (X-Y) ISO 527, GB/T 1040 71 ± 3 MPa
Tensile strength (Z) ISO 527, GB/T 1040 34 ± 2 MPa
Elongation at break (X-Y) ISO 527, GB/T 1040 2.56 ± 0.30%
Elongation at break (Z) ISO 527, GB/T 1040 1.14 ± 0.11%
Bending modulus (X-Y) ISO 178, GB/T 9341 3650 ± 66 MPa
Bending strength (X-Y) ISO 178, GB/T 9341 115 ± 3 MPa
Charpy impact strength (X-Y) ISO 179, GB/T 1043 6.56 ± 0.68 kJ/m2

Note: All testing specimens were printed under the following conditions: Nozzle temp 320℃ , Bed temp 80℃ , Print speed 45mm/s, Infill 100%, Infill angle ±45° All specimens were annealed at 100˚C for 8h

Note:
1. Dry PET GF at 70-80°C for 8-12 hours before printing, as low moisture content is crucial for final printed part quality.
2. After drying, we recommend to store PET GF filaments into Raise3D Filaments Dry Box during the printing. 
3. Abrasion of the brass nozzle happens frequently when printing PET GF. Using abrasion resistance nozzle, such as hardened steel and ruby nozzle, is highly recommended.
4. After the printing, it is recommended to anneal the model in the oven at 80-100°C for 8-12 hours.
5. For a small size model (side length <50 mm), annealing at 80°C for 8 hours is recommended; For a medium-size model (50mm<side length <150 mm), annealing at 80°C for 12 hours is recommended; For a large size model, 100°C for at least 12 hours is recommended. 
6. After annealing, a maximum of 0.1 % dimensional shrinkage could be observed along the Z-axis, depending on infill and layer height, and no significant dimensional shrinkage along the XY-axes
7. If PET GF is used as the support material for itself, please remove the support structure after annealing.

Price Guarantee

We work very hard to ensure that we offer the absolute best prices online. If you find another online store that offers a lower price than us within fourteen days of your purchase date please let us know and we will provide the difference from your original payment as a store credit.

We want you to feel confident that you are getting the absolute best price for the product you are ordering. If you find that our own website has a lower price for the same item you have ordered within fourteen days of your purchase date we will provide the difference as a store credit as well. To request your store credit simply e-mail us a link to the same product on our website, or on our competitor's website within fourteen days from the date of your order and we will process the credit accordingly.

Our 100% Price Guarantee has some limitations:

  • You must purchase the item from our website before requesting your Price Match Guarantee
  • Promotions such as rebates and "buy one, get one free" offers are not eligible
  • The item must be in stock on the competitor's website
  • The competitor must be an online store, they may not have a retail location
  • The website cannot be a discounter or auction website (ie; eBay, overstock, etc..)
  • The competitor must be an Authorized Retailer of the product in question
  • The Price Match Guarantee includes the item price and the shipping charges, it excludes sales tax
  • The Price Match Guarantee excludes items that are not shipped from the United States

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