applications areas of FFF 3D printing technology Carbon fiber 3D printed part with FFF technology The parts 3d printed with FDM technology and post processed with vapor smoothing
FFF 3D printing dimensions
Advantages of FFF 3D Printing

Functional

Prototypes

End-Use

Parts

Excellent

Surface Quality

High

Thermal

Resistance

Durable and

Lightweight

the part 3d printed with glass fiber filament the part 3d printed with carbon fiber filament
Carbon Fiber Reinforced Polyamide
dynamide carbon fiber filament logo
Mechanical Properties
Physical Properties
Tensile Strength
Melting Temperature
DSC, 10 0 C
219 0 C
Heat Deflection Temperature
ISO 75 1.8 MPa
195 0 C
Heat Deflection Temperature
ISO 75 0.45 MPa
214 0 C
Density
ASTM D792
1.17 g/cm 3
Property
Property
Test Method
Test Method
X-Y Axis
Value
Z Axis
ASTM D638
105 MPa
66 MPa
ASTM D790
165 MPa
ASTM D638
3 %
3 %
Flexural Strength
Elongation at Break (%)

Strong and durable, carbon fiber reinforced filament

with high stiffness and high thermal resistance. Ideal for application areas that require strength and lightness together, such as aerospace. Also, it is suitable for end-use parts, functional prototypes and low volume production.

Strong and durable fiberglass reinforced filament with medium thermal resistance. Ideal for end-use parts functional prototypes and low volume production.
Glass Fiber Reinforced Polyamide
dynamide glass fiber filament logo
61.5 MPa
2.8 %

Mechanical Properties

Physical Properties

Tensile Strength
Melting Temperature
DSC, 10 0 C
215 0 C
Heat Deflection Temperature
ISO 75 1.8 MPa
122 0 C
Heat Deflection Temperature
ISO 75 0.45 MPa
190 0 C
Density
ASTM D792
1.2 g / cm 3
Property Property Test Method Test Method X-Y Axis Value Z Axis
ASTM D638
85 MPa
ASTM D790
135 MPa
ASTM D638
3.5 %
Flexural Strength
Elongation at Break (%)

What is FFF

(Fused Filament Fabrication)?

Technical Specifications
BUILD VOLUME
COLOR
LAYER THICKNESS
500 x 350 x 500 mm
Black and Gray
100-263 μm

Fused Filament Fabrication (FFF) is a 3D printing technology widely known for its speed, accuracy and competitive cost.

 

In FFF technology, the printing process is performed by laying the thermoplastic materials in filament form layer by layer on top of each other. It is possible to produce products that combine strength and lightness with DYNAMIDE ® filament series, which consists of carbon fiber and fiberglass reinforced polyamide materials specially produced by Teknodizayn.

Surface Treatment - Vapor Smoothing

Advanced

Mechanical Properties

Dimensional Accuracy
Color Enhancement
Injection Molding Level Surface Quality
Sealing Against Liquid & Gas

Reduction in

Bacteria Formation

The process is not limited to the visible surface only it also polishes the complex interior spaces of polymer parts.
FFF
Fused Filament Fabrication

The solution for robust,

lightweight and

cost-effective prototypes

upload 3d model for instant quote
Carbon fiber 3D printed part with FFF technology

Advantages of

FFF 3D Printing

Durable and

Lightweight

the part 3d printed with glass fiber filament the part 3d printed with carbon fiber filament

Carbon Fiber

Reinforced Polyamide

dynamide carbon fiber filament logo

Strong and durable, carbon fiber

reinforced filament with high stiffness

and high thermal resistance. Ideal for

application areas that require strength

and lightness together, such as

aerospace. Also, it is suitable for

end-use parts, functional prototypes

and low volume production.

Strong and durable fiberglass reinforced

filament with medium thermal resistance.

Ideal for end-use parts functional prototypes

and low volume production.

Glass Fiber

Reinforced Polyamide

dynamide glass fiber filament logo
61.5 MPa
2.8 %

Mechanical Properties

Physical Properties

Melting Temperature
DSC, 10 0 C
215 0 C
Heat Deflection Temperature
ISO 75 1.8 MPa
122 0 C
Heat Deflection Temperature
ISO 75 0.45 MPa
190 0 C
Density
ASTM D792
1.2 g/cm 3
Property Property Test Method Test Method X-Y Axis Value Z Axis
ASTM D638
85 MPa
ASTM D790
135 MPa
ASTM D638
3.5 %

What is FFF?

(Fused Filament Fabrication)

Technical

Specifications

BUILD VOLUME
COLORS
LAYER THICKNESS
500 x 350 x 500 mm
Black and Gray
100-263 μm

Fused Filament Fabrication (FFF) is

a 3D printing technology widely known for

its speed, accuracy and competitive cost.

 

In FFF technology, the printing process

is performed by laying the thermoplastic

materials in filament form layer by layer on

top of each other. It is possible to produce

products that combine strength and lightness

with DYNAMIDE ® filament series,

which consists of carbon fiber and

fiberglass reinforced polyamide materials

specially produced by Teknodizayn.

Surface Treatment

Vapor Smoothing

FFF

Fused Filament

Fabrication

The solution for robust,

lightweight and

cost-effective prototypes

upload 3d model for instant quote
FFF 3D printing dimensions

Functional

Prototypes

End-Use

Parts

Excellent

Surface Quality

High

Thermal

Resistance

Flexural Strength
Elongation at Break
Tensile Strength
105 MPa
Mechanical Properties
Property
Test Method
X-Y Axis
ASTM D638
ASTM D790
165 MPa
ASTM D638
3 %
Z Axis
66 MPa
3 %
Physical Properties
Melting Temperature
DSC, 10 0 C
219 0 C
Heat Deflection Temperature
ISO 75 1.8 MPa
195 0 C
Heat Deflection Temperature
ISO 75 0.45 MPa
214 0 C
Density
ASTM D792
1.17 g/cm 3
Property
Test Method
Value
Elongation at Break
Flexural Strength
Tensile Strength

Advanced

Mechanical Properties

Dimensional Accuracy
Color Enhancement

Sealing Against

Liquid & Gas

Injection Molding Level Surface Quality

Reduction in

Bacteria Formation

The process is not limited to the visible

surface only it also polishes the complex

interior spaces of polymer parts.

applications areas of FFF 3D printing technology The parts 3d printed with FDM technology and post processed with vapor smoothing

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