The Universal Selection Source: Plastics & Elastomers

by SpecialChem

Ultramid® S3EG6 Balance

Technical DataSheet | Supplied by BASF

Polyamide PA 610. It is produced by polycondensation of hexamethylene diamine and sebacic acid. This is based to the extent of about 60 per cent on sebacic acid, a renewable raw material derived from castor oil. It differs from conventional polyamide 6 (PA 6) and 66 (PA 66) in a reduced water uptake as well as improved hydrolysis as well as stress cracking resistance. It is highly resistant to fuels, oils and greases, to most solvents, aqueous solutions and alkalis. Used in overmolding metal and electronic components that come into contact with aggressive media, for example wheel speed sensors, housing and gear components where dimensional stability is a major consideration, plug-in connectors, pipes and reservoirs in cooling circuits with high demands on hydrolysis resistance.

Ultramid® S3EG6 Balance Product details

Product Type
xxxxxxxxxxxxxxxxxxxxxxxxx
Product Status
xxxxxxxxxx
Applications/ Recommended for
  • Pipes, Hoses & Fittings
  • Gears
  • xxxxxxxxxxxxxxxxxxxxxxxxx
  • xxxxxxxxxxxxxxxxxxxxxxxxx
  • xxxxxxxxxxxxxxxxxxxxxxxxx
  • xxxxxxxxxxxxxxxxxxxxxxxxx
Food contact approval
xxx
Bio Based
xxx
Bio Based Content (%)
xxxxxxxxxxxxxxxx
Labels/Agency Rating
xxxxxxxxxxxxxxxxxxxxxxxxx
Key Features
  • xxxxxxxxxxxxxxxxxxxxxxxxx
  • xxxxxxxxxxxxxxxxxxxx
  • xxxxxxxxxxxxxxxxxxxxxxxxx

Ultramid® S3EG6 Balance Properties

Physical Properties

Value & Unit
Test Condition
Test Method
Specific Gravity (Density)
1310 kg/m³
ISO 1183
Viscosity Number (Reduced Viscosity)
150 cm³/g
DIN 53726
Water Absorption
xxxxxxxxx %
xxxxxxxxxx
xxxxxxxxxx
Moisture Absorption
xxxxxxxxx %
xxxxxxxxxx
xxxxxxxxxx

Mechanical Properties

Value & Unit
Test Condition
Test Method
Tensile Modulus
xxxx MPa
xxx
xxxxxxxxxx
Tensile Modulus
xxxx MPa
xxxxxxxxxx
xxxxxxxxxx
Flexural Modulus (Stiffness)
xxxx MPa
xxx
xxxxxxx
Flexural Modulus (Stiffness)
xxxx MPa
xxxxxxxxxx
xxxxxxx
Flexural Strength
xxx MPa
xxx
xxxxxxx
Flexural Strength
xxx MPa
xxxxxxxxxx
xxxxxxx
Tensile Strength (Tensile Stress)
xxx MPa
xxxxxxxxxx
xxxxxxxxxx
Tensile Strength (Tensile Stress)
xxx MPa
xxxxxxxxxx
xxxxxxxxxx
Tensile Elongation
xxx %
xxxxxxxxxx
xxxxxxxxxx
Tensile Elongation
xxx %
xxxxxxxxxx
xxxxxxxxxx

Impact Properties

Value & Unit
Test Condition
Test Method
Charpy Unnotched Impact Strength
xx kJ/m²
xxxx
xxxxxxxxxx
Charpy Unnotched Impact Strength
xx kJ/m²
xxxxx
xxxxxxxxxx
Charpy Notched Impact Strength
xx kJ/m²
xxxxxxxxx
xxxxxxxxxx
Charpy Notched Impact Strength
xx kJ/m²
xxxxxxxxxx
xxxxxxxxxx
Charpy Notched Impact Strength
x kJ/m²
xxxxx
xxxxxxxxxx

Ultramid® S3EG6 Balance Processing Guidelines

Injection Properties

Value & Unit
Test Condition
Test Method
Mold Temperature
xxxxxxx °C
Melt Temperature
xxxxxxxxx °C
Mold shrinkage
xxx %
Mold shrinkage
xxx %
Mold shrinkage
xxx %

Properties

Value & Unit
Test Condition
Test Method
Melting Point
220 °C
Melt volume rate MVR 275/5
30 °C
Temperature
275 °C
Pressure
5 kg
Last edited Jun 8, 2016
Report Missing Product/Supplier Report Error in Datasheet Suggest Improvement
Resirene CET
Back to Top