Comparison

Bio-PA11 Automotive vs ABS

A side-by-side comparison of Bio-based Polyamide 11, Automotive Grade P and Acrylonitrile Butadiene Styrene.

Physical

Density
1.01-1.03 g/cm³
1.04 – 1.07 g/cm³
Water Absorption (24h)
1.5-2.5 %
0.20 – 0.45 %
Transparency
Translucent to opaque
Opaque
Shrinkage
1.0 - 2.5 %
0.4 – 0.9 %
Specific Gravity
1.05
Surface Finish
Matte to glossy

Mechanical

Young's Modulus
2.0-3.0 GPa
1.8 – 2.5 GPa
Tensile Strength
50-70 MPa
40 – 50 MPa
Elongation at Break
30-60 %
10 – 50 %
Impact Strength (Izod)
5.0-10.0 J/cm
200 – 400 J/m
Flexural Strength
60 – 80 MPa
Hardness (Rockwell R)
100 – 115

Thermal

Glass Transition Temperature
40-60 °C
105 °C
Melting Point
170-185 °C
Amorphous (no true Tm)
Continuous Service Temperature
90-100 °C
70 – 90 °C
Heat Deflection Temperature
40-50 °C
85 – 100 °C
Thermal Conductivity
0.17 W/m·K
CTE
80 – 100 × 10⁻⁶ /K

Electrical

Dielectric Constant
4.5
2.7 – 3.2
Volume Resistivity
10¹¹ Ω·cm
10¹⁶ Ω·cm
Dielectric Strength
25 kV/mm
15 – 20 kV/mm
Surface Resistivity
10¹⁵ Ω

Chemical resistance

Acids
Moderate resistance
Bases
Good resistance
Good
Solvents
Good resistance to oils, greases, fuels; attacked by phenols and strong acids
UV Resistance
Moderate (requires additive)
Poor (unless stabilized)
Acids (dilute)
Good
Alcohols
Good
Oils & Greases
Fair
Gasoline
Poor
Acetone
Attacks / dissolves
Weathering
Poor without stabilizers

Sustainability

Recyclability
Recyclable (often downcycled)
Recyclable (mechanical)
Recycling Code
7 (Other)
7 (Other)
Carbon Footprint
Significantly lower than fossil-based PA11
~3.1 kg CO₂e / kg
Bio-based Content
0 %