Comparison

PVC Flexible Cable vs ABS

A side-by-side comparison of Flexible Polyvinyl Chloride for Cable Jacketing and Acrylonitrile Butadiene Styrene.

Physical

Density
1.20-1.35 g/cm³
1.04 – 1.07 g/cm³
Water Absorption (24h)
0.1-0.5 %
0.20 – 0.45 %
Transparency
Opaque
Opaque
Shrinkage
0.5-1.5 %
0.4 – 0.9 %
Specific Gravity
1.05
Surface Finish
Matte to glossy

Mechanical

Young's Modulus
0.1-0.5 GPa
1.8 – 2.5 GPa
Tensile Strength
10-20 MPa
40 – 50 MPa
Elongation at Break
100-400 %
10 – 50 %
Impact Strength (Izod)
Good
200 – 400 J/m
Flexural Strength
60 – 80 MPa
Hardness (Rockwell R)
100 – 115

Thermal

Glass Transition Temperature
-50 to -20 °C
105 °C
Melting Point
N/A (degrades)
Amorphous (no true Tm)
Continuous Service Temperature
60-80 °C
70 – 90 °C
Heat Deflection Temperature
30-50 °C
85 – 100 °C
Thermal Conductivity
0.17 W/m·K
CTE
80 – 100 × 10⁻⁶ /K

Electrical

Dielectric Constant
4.0-5.0
2.7 – 3.2
Volume Resistivity
10¹⁰-10¹² Ω⋅cm
10¹⁶ Ω·cm
Dielectric Strength
10-20 kV/mm
15 – 20 kV/mm
Surface Resistivity
10¹⁵ Ω

Chemical resistance

Acids
Good resistance
Bases
Good resistance
Good
Solvents
Attacked by ketones, esters, chlorinated and aromatic hydrocarbons
UV Resistance
Poor (requires stabilization)
Poor (unless stabilized)
Acids (dilute)
Good
Alcohols
Good
Oils & Greases
Fair
Gasoline
Poor
Acetone
Attacks / dissolves
Weathering
Poor without stabilizers

Sustainability

Recyclability
Recyclable
Recyclable (mechanical)
Recycling Code
3 (PVC)
7 (Other)
Carbon Footprint
Moderate to High
~3.1 kg CO₂e / kg
Bio-based Content
0 %