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Polyolefin Process Aid (PPA)

$0.00

Fluorinated PPA is a high-performance semi-aromatic thermoplastic modified with fluorinated components to serve as a polyolefin process aid. This material combines the mechanical strength, thermal stability, and chemical resistance of standard PPA with enhanced lubricity, flow, and surface release properties for improved processing and mold release in polyolefin systems.

Key Properties:

  • Excellent thermal and chemical resistance for demanding applications

  • Improves melt flow and processability of polyolefin blends

  • Enhances surface finish and release from molds

  • Maintains mechanical strength and dimensional stability under high-temperature processing

  • Compatible with injection molding, extrusion, and compounding processes

Common Applications:

  • Polyolefin extrusion and injection molding as a process aid

  • Masterbatch or additive for improved flow and surface quality

  • High-temperature and chemically resistant molded components

  • Automotive, electrical, and industrial applications requiring smooth surface finishes

  • Specialty engineered plastics and hybrid material systems

Fluorinated PPA is a high-performance semi-aromatic thermoplastic modified with fluorinated components to serve as a polyolefin process aid. This material combines the mechanical strength, thermal stability, and chemical resistance of standard PPA with enhanced lubricity, flow, and surface release properties for improved processing and mold release in polyolefin systems.

Key Properties:

  • Excellent thermal and chemical resistance for demanding applications

  • Improves melt flow and processability of polyolefin blends

  • Enhances surface finish and release from molds

  • Maintains mechanical strength and dimensional stability under high-temperature processing

  • Compatible with injection molding, extrusion, and compounding processes

Common Applications:

  • Polyolefin extrusion and injection molding as a process aid

  • Masterbatch or additive for improved flow and surface quality

  • High-temperature and chemically resistant molded components

  • Automotive, electrical, and industrial applications requiring smooth surface finishes

  • Specialty engineered plastics and hybrid material systems