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PA12 CF Raise3D

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Brand: Raise3D

Condition: New product

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189,99 €

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Carbon reinforced PA12 filament. Strong, lightweight, resistant to abrasion, corrosion and moisture.

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Data sheet
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Usage tips
Specifications

Raise3D is one of the leaders in industrial FDM printers and accessories. They are dedicated to finding cutting edge AM solutions for flexible manufacturing, to help companies improve their competitive advantage. Raise3D also makes 3D printing filaments. Their filament portfolio includes a wide range of basic, engineering and advanced filaments, such as PLA, PC, PVA, ABS, ASA, PETg, TPU and PA.

The Raise 3D PA12 CF is a filament based on the polyamide 12 polymer, enriched with 10-30 % of short chopped carbon fibers for improved thermomechanical performance, low warpage and lower moisture absorption.

A durable and resistant engineering material

PA is an engineering thermoplastic, known most commonly under the name nylon. It is an affordable and extremely versatile material. It is extensively used in 3D printing due to its durability, flexibility, thermoplasticity, and resistance to abrasion, friction, corrosion and chemicals. Its first uses were mainly the manufacturing of consumer goods such as toothbrushes or women’s stockings. Nevertheless, nylon quickly found other more advanced uses. During WWII it was used in the US army to make parachutes, ropes, body armor and helmet liners.

A part 3D printed with the Raise3D PA12 CF filament

Image 1: A part 3D printed with the Raise3D PA12 CF filament. Source: Raise3D.

Nowadays, nylon has diverse applications, for example in the automotive and aerospace industry, medicine and sports, as well as in the packaging and electronics industry. In 3D printing, nylon is used in the form of powder (SLS and MJF), pellets, and filament (FDM).

Enriching filaments with carbon fiber

Filaments designed for specialistic uses are frequently enriched with carbon fibers or glass fibers to make sure the filament is going to have the adequate thermomechanical behavior. The addition of carbon fiber (CF) adds rigidity, stiffness and dimensional stability. It also makes the material a valid substitute for aluminum parts due to its reduced weight. This set of properties makes CF loaded plastic ideal for the automotive industry (high tensile strength and modulus, and high temperature tolerance) and the aerospace industry (weight reduced up to 50 % with preserved functionality).

Raise 3D PA12 CF

The Raise3D PA12 CF has the PA12 nylon as the base material. PA12 has better impact resistance than PA6 (but lower than PA11) and a significantly greater resistance to corrosion, oils, fuels, hydraulic fluids, solvents and salt than PA6 and PA11. Moreover, PA 12 has a relatively low concentration of amide groups in the polymer chain, which makes it very resistant to water absorption. Another advantage of PA12 is that it does not degrade or break easily under abrasion stresses or due to ESC (Environment Stress Cracking).

A part 3D printed with the Raise3D PA12 CF filament

Image 2: A part 3D printed with the Raise3D PA12 CF filament. Source: Raise3D.

The PA12 CF is perfect as a metal substitute due to its light weight achieved by the addition of carbon fibers. The combination of low weight and sturdiness and resistance is a desired feature in the aerospace and automotive industries. The Raise 3D PA12 CF filament can also be used to 3D print jigs, fixtures and tools that can handle constant abrasion and impacts, for example on the manufacturing floor. The PA12 CF is also a valid material for the manufacturing of end-use functional parts.

In addition, to offer the possibility of making complex parts with this material, Raise3D has developed a support filament optimized for this filament: the Raise3D PA12 CF support filament.

Both materials are optimized for the Raise3D E2CF 3D printer, a printer designed especially for carbon reinforced filaments.

Impact strength (KJ/m2)	9
Elongation at break (%)	6
Tensile strength (MPa)	73
Tensile modulus (MPa)	3040
Flexural strength (MPa)	100
Flexural modulus (MPa)	3336
Softening temperature (ºC)	105
Abrasion resistance	Abrasion resistance
Fatigue resistance	Fatigue resistance
Lightweight	Lightweight
Fiber reinforced	Fiber reinforced
Moisture resistance	Moisture resistance
Chemical resistance	Chemical resistance
Hide color variations	(Hide color variations)

PA12 CF Datasheet

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PA12 CF Safety Datasheet

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For best results, the manufacturer recommends printing this filament on the Raise3D E2CF 3D printer, a printer designed especially for carbon reinforced filaments.

This filament should be dried before printing. Nylon is a very hygroscopic material. Despite this filament’s low moisture absorption properties, it should be stored in a vacuum sealed packaging until used or in a drying cabinet, such as the Fiber Three drying case, available in the version F3 Safe Light or F3 Safe Long Run. For even better results, the Slice Engineering filament drying capsule can be placed inside of the spool. If the PA12 CF filament exhibits signs of too much humidity (sizzling, bubbling or cracking), it should be dried at 80 ºC for 12 hours prior to printing.

Filaments reinforced with carbon fiber are very abrasive. This means the nozzle is at a much higher risk of wear than with non-reinforced filaments. In case of using the E2CF 3D printer, it would already be optimized to work with this material in a safe way. If you use another printer model such as the Raise Pro3 or Pro3 Plus, you can use the hardened Raise3D nozzle.

There may be adhesion problems when printing with nylon. The adhesion of the PA12 CF is improved due to the carbon fiber it contains. Nevertheless, an adhesive stick can be used to ensure good attachment of the model to the bed. A great option is the Magigoo PA stick designed for printing with nylon.

General information
Manufacturer	Raise 3D
Material	PA12 CF
Format	1000 g spool
Density	1.06 g/cm³
Filament diameter	1.75 mm
Diameter tolerance	-
Filament length	±392,2 m (Ø 1.75 mm - 1 kg)
Color	Black
RAL/Pantone	-
Print properties
Printing temperature	280 - 290 ºC
Base / bed temperature	60 - 80 ºC
Chamber temperature	-
Layer fan	Recommended
Print speed	35 - 90 mm/s
Layer height	0.1 - 0.25 mm
Mechanical properties
Izod impact resistance	-
Charpy impact resistance (ISO 179)	9.2 ± 0.6 kJ/m2
Elongation at break (ISO 527)	6.1 ± 0.6 % (XY) 3.5 ± 0.5 % (Z)
Tensile Strength (ISO 527-2)	73 ± 1 MPa (XY) 42 ± 2 MPa (Z)
Tensile modulus (ISO 527-2)	3040 ± 130 MPa (XY) 1530 ± 70 MPa (Z)
Flexural Strength (ISO 178)	100 ± 4 MPa
Flexural modulus (ISO 178)	3336 ± 292 MPa (XY)
Surface hardness	-
Thermal properties
Softening temperature (ISO 75)	105 ºC @ 1.8 MPa 131 ºC @ 0.45 MPa
Melting temperature	179 ºC
Specific properties
Transparency	-
Additional Information
HS Code	3916.9
Spool diameter (outer)	-
Spool diameter (inner)	-
Spool width	-

* The typical values detailed in this table should be considered as a reference. Actual values may vary depending on the 3D printer model used, part design and printing conditions. We advise to confirm the final results and properties with our own tests. For more information you should consult the product data sheet.