Ultrasint PA11 GB30 Datasheet

Polyamide 11

Glass Bead

Supplied by BASF 3D Printing Solutions GmbH

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Product Description
Glass bead filled Polyamide 11 powder for Laser Sintering

Ultrasint PA11 GB30, a bio-based material (castor oil), is a functionally optimized PA11 with increased rigidity. Parts made of this material show a higher stiffness compared to unfilled PA11 maintaining a good balance regarding strength, stiffness and impact resistance. Typical applications are in environments where a high rigidity is required and/or where exposure to special surroundings (e.g. chemical, detergents, oil) may occur. Due to its high ductility, it does not splinter in most crash situations. Ultrasint PA11 GB30 is processable on most common LS printers. Parameters for printing will be provided.

Typical applications are:
  • Housings and covers
  • Thermally loaded parts (i.e. close to the auto engine compartment)
  • Splinter-proof jigs & fixtures
  • Durable gears and bearings
General  
Material Status 
  • Commercial: Active
Availability 
  • Asia Pacific
  • Europe
  • North America
Filler / Reinforcement 
  • Glass Bead
Features 
  • Chemical Resistant
  • Ductile
  • Good Elasticity
  • Good Impact Resistance
  • Good Rigidity
  • Good Stiffness
  • Good Strength
  • Renewable Resource Content
Uses 
  • Additive Manufacturing (3D Printing)
  • Bearings
  • Gears
  • Housings
  
Appearance 
  • Natural Color
Forms 
  • Powder
Processing Method 
  • 3D Printing, Laser Sintering/Melting
Physical
Dry
Conditioned
Unit
Test Method
Density (Printed Part)
--
g/cm³
 ISO 1183
Apparent (Bulk) Density
--
g/cm³
 ISO 60
Melt Volume-Flow Rate (MVR) (220°C/2.16 kg)
--
cm³/10min
 ISO 1133
Mean Particle Size - d50  2
--
mil
  
Mechanical
Dry
Conditioned
Unit
Test Method
Tensile Modulus
       ISO 527-2
X Orientation : 73°F
psi
  
Z Orientation : 73°F
psi
  
X Orientation : 176°F
psi
  
Z Orientation : 176°F
psi
  
Tensile Stress
       ISO 527-2
X Orientation : 73°F
psi
  
Z Orientation : 73°F
psi
  
X Orientation : 176°F
psi
  
Z Orientation : 176°F
psi
  
Tensile Strain
       ISO 527-2
X Orientation : Break, 73°F
%
  
Z Orientation : Break, 73°F
%
  
X Orientation : Break, 176°F
%
  
Z Orientation : Break, 176°F
%
  
Flexural Modulus
       ISO 178
X Orientation
psi
  
Z Orientation
psi
  
Impact
Dry
Conditioned
Unit
Test Method
Charpy Notched Impact Strength
       ISO 179/1
X Orientation
ft·lb/in²
  
Z Orientation
ft·lb/in²
  
Charpy Unnotched Impact Strength
       ISO 179/1U
X Orientation
ft·lb/in²
  
Z Orientation
ft·lb/in²
  
Notched Izod Impact Strength
       ISO 180
X Orientation
ft·lb/in²
  
Z Orientation
ft·lb/in²
  
Unnotched Izod Impact Strength
       ISO 180
X Orientation
 
  
Z Orientation
ft·lb/in²
  
Thermal
Dry
Conditioned
Unit
Test Method
Heat Deflection Temperature
        
66 psi, Unannealed
--
°F
 ISO 75-2/B
264 psi, Unannealed
--
°F
 ISO 75-2/A
Vicat Softening Temperature
        
--
--
°F
 ISO 306/B
--
--
°F
 ISO 306/A
Melting Temperature 3
--
°F
 ISO 11357-3
Peak Crystallization Temperature 3
--
°F
 ISO 11357-3
Related Terminology
Dry
This supplier and product may also be known by these terms: ADVANC3D, Innofil3D, Innofil, PA11
Conditioned
This supplier and product may also be known by these terms: ADVANC3D, Innofil3D, Innofil, PA11
Generic Name
Dry
Generic Name may also be described by the following terms: PA11.
Conditioned
Generic Name may also be described by the following terms: PA11.
Features
Dry
Features may also be described by the following terms: Renewable Resources, From Renewable Resources, Renewable Resource Derived, Renewable Raw Materials, Renewable Resource Content, Good Stiffness, Good Impact Resistance, Good Elasticity, Good Rigidity, Good Strength, Good Chemical Resistance, Chemical Resistant.
Uses
Dry
Uses may also be described by the following terms: Additive Manufacturing, 3D Printing,3-D Printing, Housings, Housing.
Available Documents
Dry
Technical Datasheet (English)
Notes
1Typical properties: these are not to be construed as specifications.
2Laser Diffraction
310 K/min
 
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