Comparison
High-Temperature Oil-Resistant Ethylene Acrylic Elastomer vs Polycarbonate
A side-by-side comparison of Ethylene Acrylic Elastomer (AEM) and Polycarbonate.
Physical
Density
1.00 - 1.10 g/cm³
1.20 g/cm³
Water Absorption (24h)
0.3 - 0.6 %
0.15 %
Transparency
Opaque
Transparent (88% light transmission)
Shrinkage
1.5 - 2.5 %
0.5 – 0.8 %
Mechanical
Young's Modulus
0.02 - 0.05 GPa
2.3 – 2.4 GPa
Tensile Strength
10 - 20 MPa
60 – 70 MPa
Elongation at Break
200 - 500 %
100 – 150 %
Impact Strength (Izod)
N/A
600 – 900 J/m
Flexural Strength
—
90 – 100 MPa
Hardness (Rockwell M)
—
70
Thermal
Glass Transition Temperature
-15 to 5 °C
147 °C
Melting Point
N/A
—
Continuous Service Temperature
-40 to 175 °C
115 – 130 °C
Heat Deflection Temperature
N/A
130 – 140 °C
Thermal Conductivity
—
0.20 W/m·K
CTE
—
65 – 70 × 10⁻⁶ /K
Electrical
Dielectric Constant
5.5 - 6.5
2.9 – 3.0
Volume Resistivity
10^10 - 10^12 Ohm-cm
10¹⁶ Ω·cm
Dielectric Strength
10 - 15 kV/mm
15 kV/mm
Chemical resistance
Acids
Good
—
Bases
Good
Poor
Solvents
Good resistance to petroleum oils, greases, and automotive fluids; Poor resistance to aromatic hydrocarbons
—
UV Resistance
Good
Poor (unless coated)
Acids (dilute)
—
Good
Alcohols
—
Fair
Oils
—
Good
Gasoline
—
Fair
Acetone
—
Poor (attacks)
Sustainability
Recyclability
Limited
Recyclable
Recycling Code
N/A
7
Carbon Footprint
Moderate to High
~5 kg CO₂e / kg
Bio-based Content
—
0 – 50 % (bio grades)