Materials

We produce filaments with high-quality precision in two diameters – 1.75 and 2.85 mm – with tolerance +/- 0,05 mm for Vinyl 303, PC/ABS, ASA, HIPS, CPE HG100, Nylon FX256, classic polymers and +/- 0,10 mm for Flexfill, Nylon CF15 Carbon, Nylon AF80 Aramid, BVOH. Our materials come in solid packaging including a cardboard box and reusable sachet with a ziplock to protect your materials from dust, humidity and sun – all for perfect printing results

 
 

Industrial polymers

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Vinyl 303

tensile and heat resistant, hardness, impact strength

pc_abs

PC/ABS

tensile, impact strength, hardness, thermal properties

asa

ASA Extrafill

weather resistant, heat resistant, post-processing, dimensional stability

cpe

CPE HG100

easy to print, impact, mechanical, chemical resistance

nylonFX526

Nylon FX256

high heat, wear, impact and chemical resistance

nylon_CF15_carbon

Nylon CF15 Carbon

wear, chemical, heat and tensile strength, smooth finish

nylon_AF80_aramid

Nylon AF80 Aramid

tribological properties, thermal and chemical resistance, smooth finish, strong

flexfill_98A

Flexfill 98A

semi-flexible TPU, tear, abrasion, heat resistant

flexfill_92A

Flexfill 92A

flexible TPU, tear and tensile strength, abrasion resistant

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PP 2320

chemical and thermal resistant, low density, durability

 

Support materials & accessories

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BVOH

dissolution in water, adhesion to printing materials, smooth interface

hips

HIPS Extrafill

dissolvable in Lemonesol, adhesion to other polymers, toughness

lemonesol

Lemonesol

solvent for support parts, high quality of the object after dissolving

magigoo

Magigoo

adhesive for bed, sticks at higher temperatures, easy to remove after cooling

ideal for ASA, Flexfill, Vinyl 303, required for CPE HG100

 

Classic & special polymers

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PLA Extrafill,

PLA Crystal Clear,

ABS Extrafill,

Timberfill

Vinyl 303

 
 

Unique brand-new polyvinyl chloride filament from Fillamentum

The commodity plastic is now available for prototyping.
It offers great mechanical properties, durability and impact resistance.

That’s why we can proudly call it INDUSTRIAL.

Advantages

  • Perfect workability and features
    - commodity plastic available in the form of filament!

  • High quality of your 3D printing
    - functionality, toughness, rigidity

  • Excellent printing properties
    - strong interlayer and bed adhesion

  • Mechanical properties
    - tensile strength, hardness, impact resistance

  • Improved heat stability
    - basic PVC resists for 20 minutes

  • Excellent for prototyping

  • Low moisture adsorption

  • Chemical resistance
    - resistant to oils, salts, solutions, water

  • RoHS compliant
    - safe for use in electrical and electronic equipment

  • Recyclable, styrene free

Printing information

  • Printing temperature: 215–230 °C

  • Bed temperature: 80 °C

  • The printing speed should be in the range of 40–60 mm/s

After finish of printing, remove the filament to avoid degradation in the nozzle. It shouldn’t stay in the nozzle at elevated temperature for long time. Ventilate the room during printing, the harmful vapours are released. The vapours may affect your stainless-steel parts of 3D printer. Layer must be high enough to avoid clogging of the nozzle.

Use Magigoo or 3Dlac to strengthen bed adhesion!

Warning! The toxic fumes are emitted. Follow the safety recommendations!

Technical data sheet

Safety printing recommendations


 

Proof of durability

  • Tensile strength
    46,1 MPa
    13,1 %

  • Hardness 78 Shore D

  • Heat resistance (Vicat) 71 °C

  • Thermal stability > 40 min (200 °C)

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PC/ABS

 
 

The filament made of PC/ABS is resistant in all respects

Printed objects with nice surface and great features.

This material is widely used in automotive industry. Therefore, it is ideal for prototyping.

Advantages

  • High-quality 3D printing filament
    - prototyping, resistant parts

  • Great printing properties
    - lower warping, less odour than ABS and ASA, interlayer adhesion, smooth finish

  • Excellent temperature resistance
    - high HDT, low thermal expansion

  • Mechanical properties
    - tensile, flexural strength, impact resistance, resilience

  • Environmentally friendly material
    - non-toxic, lower styrene emission

Printing information

  • Printing temperature: 230–250 °C

  • Bed temperature: 80–95 °C

First trial version of material – the properties of final version may be different.

Use Magigoo or glue for improvement of bed adhesion! Chemical structure of styrene plastics may cause the warping of bigger objects.

Technical data sheet

 
pc/abs

Resistance & printability

PC/ABS | PC/ABS filaments*

  • Tensile strength
    55 MPa | 41 MPa

  • Flexural strength
    80 MPa | 68 MPa

  • Impact resistance
    60 kJ/m2 | 40 kJ/m2

  • Heat resistance (HDT)
    125 °C (0,45 MPa) | 98–110 °C

*publicly accessible information from other producers

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ASA Extrafill

 
 

Filament that provides weather resistance and excellent printability

Printed objects can withstand high temperatures and UV radiation.
Don’t hesitate to replace your ABS filament with ASA Extrafill!
Your prints will achieve higher functionality while making printing easier.

Advantages

  • Excellent functional properties of printed objects

  • High-tech material for 3D printing
    - dimensional stability, matt finish

  • Excellent printing properties
    - strong interlayer adhesion, lower warping and emission of styrene than ABS

  • Option to prime & paint

  • Excellent for prototyping

  • Low density

  • High lightfastness of new colours
    - lifetime of up to 8 years

  • Chemical resistance

  • RoHS compliant
    - safe for use in electrical and electronic equipment

  • Recyclable

Printing information

  • Printing temperature: 240–255 °C

  • Bed temperature: 80–105 °C

The chemical structure of styrene plastics means that warping may occur in large objects.
Always use Magigoo or glue to strengthen bed adhesion!

Color variants

 

Proof of durability

ASA Extrafill | ABS Extrafill

  • Weather resistance
    UV stability | yellowing

  • Tensile strength
    40 MPa/35 % | 32 MPa/20 %

  • Hardness
    92 R-Scale | 103 R-Scale

  • Impact resistance

  • 441 J/m | 245 J/m

  • Heat resistance (HDT)
    96 °C | 90 °C

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CPE HG100

 
 

3D printing filament made from modified PETG material

Additional monomer improves all the properties when compared with PETG filaments.
Technical material with excellent properties that can be easily printed!
Compared with PETG filament, Fillamentum CPE HG100 provides better properties in all respects.

You can rely on the high quality of your printed objects!

Advantages

  • Guarantee of high quality printed objects with excellent functional properties

  • High-tech material for 3D printing
    - durable, tough, long life of material

  • Excellent printing properties
    - strong interlayer adhesion, easy printing as PLA, no odour, low warping

  • Option to prime & paint

  • Optimal transparency in the thin layer
    - high transmittance in transparent colours

  • Safe for food contact applications
    - can be used in contact with food up to 100 °C

  • Environmentally friendly material
    - recyclable, bio-based, BPA free, styrene free

Printing information

  • Printing temperature: 255–275 °C

  • Bed temperature: 70–85 °C

Highly moisture sensitive, keep in the protective sachet.
Always use Magigoo for ideal bed adhesion! The excellent adhesion to other materials, plastics, composites and glass means it can damage your bed without adhesive.
If stringing occurs, re-dry the filament.

Color variants

 

Reasons for perfection

CPE HG100 | PETG*

  • Impact resistance
    no break | 98–126 J/m

  • Tensile strength
    48 MPa/150 % | 26–45 MPa/58–110 %

  • Hardness
    115 R-Scale | 108 R-Scale

  • Heat resistance (HDT)
    80 °C | 70 °C

  • Chemical resistance
    good | poor

*publicly accessible information from other producers

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Nylon FX256

 
 

High-tech filament made from polyamide 12

Excellent functional properties for the most resistant prints.
The material retains its properties under a wide range of temperatures.
Unmatched chemical resistance, even at elevated temperatures.
Guarantees the high-quality of printed objects.

Advantages

  • High functionality of the 3D printed object

    - special properties, long life of the material

  • Printing properties
    - strong interlayer adhesion, no odour

  • Mechanical properties
    - durable, tough, crystalline, but resilient in the thinner layer

  • Low density

  • Impact resistance
    - notched impact strength is the same at 23 and -40 °C

  • Chemical resistance
    - withstands hydrolysis, ionizing radiation, ozone, neutral and alkaline media

  • Moisture absorption
    - lower than in the case of polyamide 6

  • Safe for food contact applications
    - can be used in contact with food, hot water resistance

  • Environmentally friendly material
    - recyclable, bio-based, BPA free, styrene free

Printing information

  • Printing temperature: 235–260 °C

  • Bed temperature: 80–105 °C

  • Because of the crystallinity, it is recommended to set the speed of printing at 20 mm/s.

The filament needs to melt homogenously. The crystallization influences warping during cooling.

Use a glue stick for ideal bed adhesion.

Technical data sheet

 
Nylon FX256

Resistance in values

  • Tensile strength 45 MPa/50 %

  • Abrasion resistance 48 mm3

  • Heat resistance (Vicat) 140 °C

  • Chemical resistance - fuels, ketones, oils, salts, hydrocarbons, even at elevated temperatures

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Nylon CF15 Carbon

 
 

Carbon fibre reinforced Nylon FX256 filament.

Strong, smooth & resistant.
Wide temperature range, chemically and mechanically resistant.
The material retains its properties under a wide range of temperatures.

Advantages

  • 3D printed object with excellent functional properties
    - change of properties versus Nylon FX256

  • Printing properties
    - strong interlayer adhesion, smooth surface, higher process stability

  • Mechanical properties
    - improved tensile strength and hardness, wear and abrasion resistance

  • Heat resistance
    - similar to Nylon FX256, improved HDT

  • Low density

  • Impact resistance
    - lower resilience because of fibres

  • Chemical resistance
    - similar when compared with Nylon FX256 (carbon fibres are chemical resistant)

  • Environmentally friendly material
    - recyclable, BPA free, styrene free

Printing information

  • Printing temperature: 235–260 °C

  • Bed temperature: 80–105 °C.

Due to the crystallinity, warping may occur during cooling.
Use a glue stick for ideal bed adhesion.

Technical data sheet

 
Nylon CF15 Carbon

Changes in values

Nylon CF15 Carbon | Nylon FX256

  • Tensile strength
    54,5 MPa/103 % | 45 MPa/50 %

  • Hardness
    75 Shore D | lower hardness

  • Charpy impact resistance
    86,2 kJ/m2 (unnotched) | 7 kJ/m2 (notched)

  • Printing properties
    more stable | need of proper melt

  • Wear resistance
    very high | high

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Nylon AF80 Aramid

 
 

Nylon FX256 filament reinforced with aramid fibre

The fibre brings tribological properties and wear resistance.
High temperature, wear and tensile resistant.
These features are maintained in wide temperature range.

Advantages

  • Functional properties achieved for 3D printed object
    - change of properties versus Nylon FX256

  • Printing properties
    - strong interlayer adhesion, higher process stability, smooth surface

  • Mechanical properties
    - higher tensile strength, tribological properties, hardness

  • Heat resistance
    - close to Nylon FX256, improved HDT

  • Low density

  • Impact resistance
    - lower elasticity because of fibre

  • Environmentally friendly material
    - BPA free, styrene free

Printing information

  • Printing temperature: 235–260 °C

  • Bed temperature: 80–105 °C.

Due to crystallization, warping may occur during cooling.
Use a glue stick or Magigoo for ideal bed adhesion.

Technical data sheet

 
Nylon AF80 Aramid

Changes in values

Nylon AF80 Aramid | Nylon FX256

  • Tensile strength
    50,4 MPa /5,8 % | 45 MPa/50 %

  • Hardness
    Shore D | lower hardness

  • Charpy impact resistance
    53,2 kJ/m2 (unnotched) | 7 kJ/m2 (notched)

  • Printing properties
    more stable | need of proper melt

  • Wear resistance
    very high | high

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Flexfill 98A

 
 

Semi-flexible and resistant 3D printing filament made from TPU

The hardness of Flexfill 98A fills the space between classic thermoplastic polymers and elastomers.
High-tech filament for flexible and dynamically stressed parts.
Flexfill 98A provides unique hardness 98 Shore A – only available from Fillamentum.

Advantages

  • Printed parts with specific features

  • High-quality 3D printing filament
    - dimensional stability, smooth finish

  • Excellent printing properties
    - interlayer adhesion, bed adhesion, low warping and stringing

  • Printing with 100% infill ensures tough material

  • Mechanical properties
    - semi-flexible, highly reversible deformation

  • Ideal for dynamically stressed parts and sealing
    - tear strength, abrasion and wear resistance, rebound resilience

  • Optical properties
    - clear in the thin layer

  • Chemical resistance
    - oils, greases, ozone

  • UV stabilisation, lightfastness of all colours, radiation resistance

  • RoHS compliant
    - safe use in electrical and electronic equipment

  • Safe material
    - recyclable, BPA and styrene free, low odour

Printing information

  • Printing temperature: 220–240 °C

  • Bed temperature: 50–60 °C

  • The flexibility means we can recommend a printing speed of around 20 mm/s

Use Magigoo or 3Dlac to strengthen bed adhesion!

Technical data sheet

 
Flexfill 98A

Benefits

Flexfill 98A | TPU filaments*

  • Hardness
    98 Shore A | > 95 Shore A

  • Tensile strength

  • 53.7 MPa/318 % | 29–50 MPa/330–750 %

  • Heat resistance
    110 °C | 60–100 °C

  • Abrasion resistance
    23 mm3 | > 23 mm3

  • Tear strength
    170 kN/m | not available

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Flexfill 92A

 
 

Flexible 3D printing filament made of TPU. This filament has high resistance and ideal flexibility

High-tech filament for dynamically stressed parts.

Advantages

  • Flexibility of printed objects

  • High-quality 3D printing filament
    - smooth finish, interlayer adhesion, bed adhesion, low warping and stringing

  • Mechanical properties
    - flexible, abrasion, tear and wear resistance, rebound resilience

  • Dynamically stressed parts or sealing

  • Chemical resistance

  • RoHS compliant
    - safe use in electrical and electronic equipment

  • Safe material
    - recyclable, low odour, BPA free, styrene free

Printing information

  • Printing temperature: 220–240 °C

  • Bed temperature: 50–60 °C

  • Due to the flexibility we can recommend a printing speed of around 20 mm/s

Use Magigoo or glue to strenghten bed adhesion and easy removal of the printed object.

Technical data sheet

 
Flexfill 92A

Benefits

Flexfill 92A | TPU filaments*

  • Hardness
    92 Shore A | < 87 Shore A

  • Tensile strength
    49 MPa/600 % | 26–40 MPa/660–750 %

  • Heat resistance
    100 °C | 60–100 °C

  • Abrasion resistance
    30 mm3 | > 35 mm3

  • Tear strength
    85 kN/m | not available

*publicly accessible information from other producers

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 PP 2320

 
 

COMMODITY PLASTIC AVAILABLE AS 3D PRINTING FILAMENT. PERFECT CHOICE FOR YOUR PROTOTYPING AND PRINTING OBJECTS OF EVERYDAY USE.

Technical material easily used for 3D printing. Polypropylene ensures the chemical and thermal resistance.

Advantages

  • Reliability of the high-quality 3D printing filament

    - functional objects for everyday use

  • Thermal resistance

  • Mechanical properties

    - resilience, toughness

  • Chemical resistance

    - resists to acids, bases, salts, oils, water, etc.

  • Low density

  • Optical properties

    - matte finish, translucent

  • Safe for food contact applications

  • Electrical properties

    - electrical insulator

  • Low moisture and water adsorption

  • RoHS compliant

    - safe use in electrical and electronic equipment

  • Environmentally friendly material

    - recyclable, non-toxic

Printing information

  • Printing temperature: 210-230 °C

  • Bed temperature: 50-70 °C

Use Magigoo PP or PP tape for ideal bed adhesion.

TECHNICAL DATA SHEET

 

Resistance of comodity

  • Tensile strength

    23 MPa

  • Elongation at break

    20 %

  • Tensile modulus

    1400 MPa

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HIPS Extrafill

 
 

High impact polystyrene filament for printing support parts.Endless printing options!

Easily removable by dissolving in Lemonesol.
The wide processing window means it can be used for all the materials from Fillamentum Industrial.

Advantages

  • Reliability of the high-quality 3D printing filament
    - matt finish used for support parts and functional objects

  • Strong printing properties
    - lower warping, less odour than ABS and ASA, strong interlayer adhesion

  • Printing of supports
    - adhesion to other materials, smooth interface, fast removal

  • Mechanical properties
    - flexural strength, impact resistance, resilience

  • Option to paint & grind

  • Low density

  • Safe for food contact and toy applications

  • Electrical properties
    - dielectric strength, surface & volume resistivity

  • Low moisture and water adsorption

  • RoHS compliant
    - safe use in electrical and electronic equipment

  • Environmentally friendly material
    - recyclable, non-toxic, BPA free, lower styrene emission

Printing information

  • Printing temperature: 230–250 °C

  • Bed temperature: 90–105 °C

The chemical structure of styrene plastics means that warping may occur when used with large objects.
Use Magigoo or 3Dlac to strengthen bed adhesion!

Technical data sheet

 
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See the multifunctionality

HIPS Extrafill | Nylon FX256

  • Tensile modulus
    2000 MPa | 1400 MPa

  • Dielectric strength
    155 kV/mm | 27 kV/mm

  • Impact resistance

  • 17 kJ/m2 (notched) | 7 kJ/m2 (notched)

  • Heat resistance (HDT)
    85 °C (1,8 MPa) | 50 °C (1,8 MPa)

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BVOH

 
 

Water soluble material for support filament

Your printing can be raised to a higher level.
Easy and fast removal in cold water.
It can be used for different polymers due to the wide processing window.

Advantages

  • 3D printing filament for technical or basic 3D printing

  • Printing properties
    - low warping, low odour, strong interlayer adhesion, wide processing window for easy working with different materials

  • Use in for support parts
    - adhesion to ASA, CPE, Nylon, Flexfill, smooth interface, fast removal

  • Mechanical properties
    - durability, toughness

  • Lower moisture adsorption than PVA

  • Environmentally friendly material
    - non-toxic, water with dissolved material may be poured into a drain

Printing information

  • Printing temperature: 200–255 °C

  • Bed temperature: 50–90 °C

Follow the settings recommended for the main printing material. Option of multi-material 3D printing. A dual extruder 3D printer is recommended for use with Nylon and Flexfill filaments.

Use Magigoo or glue to strengthen bed adhesion!

Technical data sheet

 
bvoh (1).jpg

Easy and fast

BVOH | PVA filaments*

  • Print temperature
    200–255 °C | 195–225 °C

  • Hot pad
    50–90 °C | < 60 °C

  • Adhesion
    high | limited

  • Dissolution in water
    at room temperature until 1 hour | higher temperature > 6 hours

*publicly accessible information from other producers

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