What are rubber-plastic composite parts?

Rubber-plastic composite parts consist of two material components - an elastic rubber part and a dimensionally stable plastic carrier - which are bonded to each other with a positive or non-positive fit. The combination utilises the respective advantages of both materials: plastic offers dimensional accuracy, dimensional stability, chemical resistance and freedom of design, while rubber offers a high degree of flexibility. Sealing, elasticity and vibration damping.

 

The connection is usually made by:

 

These components combine several functions - they seal, store, guide or protect - and thus reduce assembly costs and component diversity. Due to their design flexibility, rubber-plastic composite parts are particularly suitable for compact assemblies with high integration requirements.

 

Functions & applications of rubber-plastic composite parts

Depending on their design, rubber-plastic composite parts fulfil both mechanical and functional tasks. They are used where elastic and dimensionally stable properties are required in combination, for example for Sealing systems, vibration insulation or Housing parts with Sealing lips:

  • Sealing: elastic sealing lips or rings prevent the passage of liquids or gases
  • Vibration dampingelastic connection to reduce vibrations and noise
  • Guide and bearing: Combination of precise plastic geometry and flexible rubber support
  • Force transmission: elastic connection between components with different expansions
  • Media resistance: Protection of sensitive components against moisture, chemicals or temperature
  • Design integration: aesthetic and functional combination in one component

 

Typical applications:

  • Automotive industry: Sealing plugs, Covers, sensor and plug-in housings with integrated elastomer seal
  • Mechanical engineering: Plain bearings, Vibration absorber, caps and flexible connecting elements
  • Medical technology: sterile Housing parts, valve components and diaphragm systems
  • Electronics: Enclosure seals, Push-button covers and vibration-protected surrounds
  • Household and consumer goods industry: grip surfaces, operating modules or seals on plastic housings
  • Packaging technology: Sealing and dosing components in pump and sealing systems

 

The targeted use of different material pairings results in multifunctional components that are lightweight, media-resistant and optimised for assembly.

 

Materials and variants of rubber-plastic composite parts

The selection of a suitable material combination is crucial for the durability and functionality of a rubber-plastic composite part. Plastic and rubber must be thermally, chemically and mechanically compatible to ensure a durable bond.

 

Plastic components:

  • PA (polyamide): very good strength, heat resistance
  • PBT (polybutylene terephthalate): high dimensional stability
  • PP (polypropylene): lightweight, chemically resistant, often used for housings and covers
  • PC (polycarbonate): impact-resistant, transparent, for visual and operating components
  • PEEK: high-performance plastic with excellent temperature and chemical resistance
  • ABSeconomical and easy to process

 

Elastomer components:

  • NBR (nitrile rubber): oil and fuel resistant, suitable for technical sealing systems in machines
  • EPDMresistant to ozone, weathering and vapour, preferably in outdoor applications
  • Silicone (VMQ): high temperature resistance (-60 °C to +200 °C) and biocompatible, suitable for medicine and food technology
  • TPE (Thermoplastic elastomers): combine elasticity and good adhesion to thermoplastic substrates
  • FKMfor aggressive media and high-temperature applications

 

To ensure that rubber-plastic composite parts are durable and function reliably, they have various design features that facilitate adhesion, sealing and assembly:

  • Adhesion promoter layers between plastic and elastomer for permanent bonding
  • Geometric interlocks or positive locks for additional securing
  • Integrated Sealing lips or grooves to improve the sealing function
  • Material transitions with coordinated wall thickness for stress reduction
  • Geometric optimisation for uniform Vulcanisation

 

Thanks to the use of modern production technologies such as 2KInjection Molding, insert moulding or overmoulding processes, technically sophisticated composite parts with a high level of functional integration and minimal assembly effort are produced.