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Aliz PETG-CF Filament with printed part
PETG-CF Filament
PETG-CF Filament
PETG-CF Filament
PETG-CF Filament
PETG-CF Filament
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PETG-CF5/15

Material Type

PETG-CF5/15
Product Specification

Different carbon fiber content

Color

Carbon Fiber Black

Aliz PETG-CF5/15 3D PRINTING FILAMENT

图片1(大)
图片2(高)
图片3(小)
图片4(中)
Powerful Performance To Bring Your ldeas To Life

PETG-CF5/15 ADVANTAGES

High Strength and Stiffness

High Strength and Stiffness

The mechanical properties of Aliz PETG-CF are significantly enhanced after adding carbon fiber, with a flexural modulus of at least 2000 MPa, making it suitable for applications requiring structural strength.

Excellent Wear Resistance

Excellent Wear Resistance

Carbon Fiber improves the material

Low Warping and High Dimensional Stability

Low Warping and High Dimensional Stability

Reduces shrinkage and warping during cooling, which is beneficial for manufacturing large or precision parts.

Superior Chemical Resistance

Superior Chemical Resistance

Enhances the stability and durability of the material in complex industrial environments.

Good Printing Performance

Good Printing Performance

Compared to traditional carbon fiber materials, Aliz PETG-CF encounters fewer issues during printing, such as stringing, oozing, and nozzle clogging, and is compatible with most FDM 3D printers.

Matte Finish

Matte Finish

The finished product boasts a unique matte sand-textured surface, giving printed parts a more premium appearance.

Carbon Fiber PETG
Carbon Fiber PETG

Premium Matte Finish

Carbon fiber matte texture reduces layer lines, delivering a refined, professional finish.

Regular PETG
Regular PETG

PETG-CF5/15 APPLICATIONS

High Strength Industrial Component Manufacturing
Good Toughness Electronics Enclosures
High Rigidity Prototyping
Aerospace

Aerospace

Automotive Fields

Automotive Fields

Low Shrinkage &
No Warping

Carbon fiber improves material shrinkage on cooling and reduces warpage.

Recommended Nozzle Temperature
240–270 °C
Recommended Heated Bed Temperature
65–75 °C

Fit Most FDM 3D Printers

The all-new AMS lite is elegant and reliable, making multi-color 3D printing accessible to everyone.

Donut 1 Donut 2 Donut 3

Perfect for Demanding, High-Performance Applications

Mechanical Properties

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing X-Y Axis Typical Value 3D Printing  Z Axis Typical Value Unit
Tensile Strength ISO 527 50mm/min 53.1 54.8±4 24.6±2 MPa
Elongation at Break ISO 527 50mm/min 46.1 5.83±1 1.4±0.3 %
Tensile Modulus ISO 527 50mm/min 2399.9 2229.9±100 2140.6±100 MPa
Flexural Strength ISO 178 2mm/min 74 70.8±4 46.8±4 MPa
Flexural Modulus ISO 178 2mm/min 2430 2355±100 2085±100 MPa
Charpy Impact Strength ISO 179 23℃ NB 22±2 4.5±1 KJ/㎡
Izod Impact Strength ISO 180 23℃ NB 18.4±2 3.9±1 KJ/㎡
 

Physical Properties

Property Testing Method Testing Condition Typical Value Unit
Density ISO 1183 Immersion 1.29 g/cm3
Melt Flow index(MFR) ISO 1133 240℃/2.16kg 12-22 g/10 min
 

Moisture Absorption

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing Typical Value Unit
Moisture Absorption ISO 62 50%RH*23℃ 0.5 0.6 %
 

Chemical Properties

Property Testing Result
Weak Acid Resistance Not Resistant
Strong Acid Resistance Not Resistant
Weak Base Resistance Not Resistant
Strong Base Resistance Not Resistant
Organic Solution Resistance Not Resistant
 

Thermal Properties

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing X-Y Axis Typical Value 3D Printing X-Y Axis Typical Value Unit
Glass Transition Temperature DSC 10℃/min 81.5
Decomposition Temperature TGA 20℃/min N/A
Heat Distortion Temperature ISO 75 0.45MPa 74.5 73.8 68.2
Heat Distortion Temperature ISO 75 1.8MPa 71.2 69.2 58.7
Vicat Softening Temperature ISO 306 50℃/10N 79.8 79.5 79.4
 

Recommended 3D Printing Parameters

*Based on 0.4 mm nozzle. Printing conditions may vary with different nozzle diameters.
Printing Temperature 240-270(℃)
Bed Temperature 70-80(℃)
Wall Layers 2 Layers
Top and Bottom Layers 4 Layers
Infill 100%
Ambient Temperature 25℃
Cooling Fan 0-10%
Printing Speed 30-50(mm/s)
Nozzle Diameter 0.4 mm
 

3D Printing Actual Parameters

*All specimens must be left at room temperature for 24 hours before testing. The parameters are based on the Bambulab P1S 3D printer.
Printing Temperature 260 (℃)
Bed Temperature 80 (℃)
Wall Layers 2 Layers
Top and Bottom Layers 4 Layers
Infill 100%
Ambient Temperature 25℃
Cooling Fan 10%
Printing Speed 50 (mm/s)
Nozzle Diameter 0.4 mm

Mechanical Properties

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing X-Y Axis Typical Value 3D Printing  Z Axis Typical Value Unit
Tensile Strength ISO 527 50mm/min 118.8 64.5±4 26.5±2 MPa
Elongation at Break ISO 527 50mm/min 2.2 1.8±1 1.5±0.3 %
Tensile Modulus ISO 527 50mm/min 10496.8 5423.5±100 2166.4±100 MPa
Flexural Strength ISO 178 2mm/min 171.5 100±10 40.2±4 MPa
Flexural Modulus ISO 178 2mm/min 10108.3 4660±100 1832.5±100 MPa
Charpy Impact Strength ISO 179 23℃ 35.7 15.5±2 5.6±1 KJ/㎡
Izod Impact Strength ISO 180 23℃ 31.7 12.6±2 5.2±1 KJ/㎡
 

Physical Properties

Property Testing Method Testing Condition Typical Value Unit
Density ISO 1183 Immersion 1.32 g/cm3
Melt Flow index(MFR) ISO 1133 240℃/2.16kg 3-13 g/10 min
 

Moisture Absorption

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing Typical Value Unit
Moisture Absorption ISO 62 50%RH*23℃ 0.5 0.6 %
 

Chemical Properties

Property Testing Result
Weak Acid Resistance Not Resistant
Strong Acid Resistance Not Resistant
Weak Base Resistance Not Resistant
Strong Base Resistance Not Resistant
Organic Solution Resistance Not Resistant
 

Thermal Properties

Property Testing Method Testing Condition Injection Molding Typical Value 3D Printing X-Y Axis Typical Value 3D Printing Z Axis Typical Value Unit
Glass Transition Temperature DSC 10℃/min 76.5
Distortion Temperature TGA 20℃/min N/A
Heat Distortion Temperature ISO 75 0.45MPa 76.7 74.9 68.1
Heat Distortion Temperature ISO 75 1.8MPa 74.4 73.3 62.1
Vicat Softening Temperature ISO 306 50℃/10N 93.4 86.1 78
 

Recommended 3D Printing Parameters

*Based on 0.4 mm nozzle. Printing conditions may vary with different nozzle diameters.
Printing Temperature 260-280(℃)
Bed Temperature 80-100(℃)
Wall Layers 2 Layers
Top and Bottom Layers 4 Layers
Infill 100%
Ambient Temperature 25℃
Cooling Fan 0-10%
Printing Speed 30-50(mm/s)
Nozzle Diameter 0.4 mm
 

3D Printing Actual Parameters

*All specimens must be left at room temperature for 24 hours before testing. The parameters are based on the Bambulab P1S 3D printer.
Printing Temperature 260 (℃)
Bed Temperature 80 (℃)
Wall Layers 2 Layers
Top and Bottom Layers 4 Layers
Infill 100%
Ambient Temperature 25℃
Cooling Fan 10%
Printing Speed 50 (mm/s)
Nozzle Diameter 0.4 mm
Jiangyin Longshan Synthetic Material Co., Ltd.

Jiangyin Longshan Synthetic Materials Co., Ltd. is a modified plastics company integrating R&D, production and sales, specializing in the development of medium and high-end modified materials.

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