Engineering Plastics
Balanced mechanical, thermal, and chemical performance for structural parts.
A tough engineering thermoplastic widely used in automotive, consumer products, electronics and 3D printing.
A transparent, high-impact engineering plastic used in glazing, electronics and safety equipment.
A tough, wear-resistant nylon widely used for gears, bushings, and under-the-hood automotive parts.
A stiff, low-friction acetal polymer engineered for precision gears and mechanical parts.
Low water absorption, good dimensional stability, excellent chemical resistance.
Bio-based, excellent flexibility, good impact strength and chemical resistance.
Lower moisture absorption than PA6/PA66, good chemical and dimensional stability.
Excellent electrical properties, good chemical resistance, low warpage.
Good stiffness, strength, and barrier properties. Often used in packaging and fibers.
Exceptional thermal stability, chemical resistance, and inherent flame retardancy.
High strength and stiffness at elevated temperatures, good chemical resistance.
Excellent hydrolytic stability, dimensional stability, and electrical properties.
Combines the impact strength of PC with the processability of ABS.
Good toughness, chemical resistance, and dimensional stability.
High stiffness, strength, excellent fatigue resistance and low friction.
Good chemical resistance, fatigue strength, and creep resistance.
High temperature resistance, good mechanical strength, and transparency.
Higher continuous use temperature and creep resistance than PSU.
Exceptional thermal stability, high strength, broad chemical resistance.
Exceptional flowability in thin walls, high thermal and chemical resistance.
Excellent impact strength and toughness, good heat resistance.
Good balance of impact strength, stiffness, and processability.
Good heat resistance and dimensional stability for a styrene-based polymer.
Good transparency, stiffness, and chemical resistance compared to polystyrene.
Excellent weatherability and UV resistance, good impact strength.
Clear, tough, and good chemical resistance.
High stiffness, strength, and thermal resistance, excellent barrier properties.
Improved toughness and ductility compared to standard PA6.
Enhanced stiffness, dimensional stability, and reduced shrinkage.
Increased strength, stiffness, and thermal performance.
Excellent dimensional stability and stiffness with reduced anisotropy.
High stiffness, improved dimensional stability, and controlled shrinkage.
Enhanced stiffness, dimensional stability, and reduced thermal expansion.
Optimized balance of impact strength, toughness, and heat resistance.
Enhanced toughness, good chemical resistance, and dimensional stability.
Enhanced stiffness, strength, and creep resistance at elevated temperatures.
Good balance of stiffness, toughness, and dimensional stability.
Improved stiffness and strength with lower moisture absorption than PA6/PA66.
Excellent electrical properties, stiffness, and heat resistance.
Exceptional thermal stability, chemical resistance, and high mechanical strength.
High strength, stiffness, and thermal resistance for demanding applications.
Excellent dimensional stability, strength, and heat resistance.
Excellent impact strength, especially at low temperatures.
Improved impact strength while maintaining low moisture absorption.
Improved impact strength and toughness.
High stiffness combined with improved impact strength.
Good impact strength and chemical resistance.
Exceptional stiffness, strength, light weight, and electrical conductivity.
High stiffness, strength, and electrical conductivity.
Exceptional stiffness, strength, thermal performance, and conductivity.
Extremely high stiffness, strength, and thermal resistance.