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PETG-CF5

Material Type

PETG-CF5 PETG-CF15

Product Specification

PETG-CF5,with 5%Carbon Fiber content, is suitable for applications that require a certain level of strength but prioritize printing convenience.

Color

Carbon Fiber Black

CARBON FIBER PETG
ENGINEERED FOR POWER

High Strength & Rigidity

Engineered to withstand extreme loads and maintain structural integrity in industrial applications. Ideal for parts that demand uncompromising strength.

Good Abrasion Resistance

Designed to resist wear and tear in high-friction environments. Perfect for mechanical components like gears, pulleys, and moving parts.

Strong, Tough, and Durable

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

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/㎡

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

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	%

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

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	℃

PETG-CF5

Material Type

Color

Aliz 3D PRINTER FILAMENT CARBON FIBER PETG

CARBON FIBER PETG
ENGINEERED FOR POWER

High Strength & Rigidity

Good Abrasion Resistance

Premium Matte Finish

Strong, Tough, and Durable

Vacuum-Sealed Packed

Neatly Wound Spool

Low Shrinkage &
No Warping

Fit Most FDM 3D Printers

Perfect for Demanding, High-Performance Applications

Social Media

Quick Links

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

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

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

PETG-CF5

Material Type

Color

Aliz 3D PRINTER FILAMENT CARBON FIBER PETG

CARBON FIBER PETG ENGINEERED FOR POWER

High Strength & Rigidity

Good Abrasion Resistance

Premium Matte Finish

Strong, Tough, and Durable

Vacuum-Sealed Packed

Neatly Wound Spool

Low Shrinkage & No Warping

Fit Most FDM 3D Printers

Perfect for Demanding, High-Performance Applications

Social Media

Quick Links

CARBON FIBER PETG
ENGINEERED FOR POWER

Low Shrinkage &
No Warping