Molded parts made from thermoplastics and thermoplastic elastomers (hard-soft composites) are increasingly used in automotive engineering, medical engineering and consumer goods to satisfy increasingly sophisticated demands for the look, feel and function of components. As a result, the plastics processing industry is increasingly turning to multi-component injection molding as a manufacturing technology for hard-soft combinations.
Openair-Plasma® technology is already used successfully in 2-component injection molding to produce strongly bonded compounds. With the aim of extending the spectrum of materials and rationalizing the process, Plasmatreat has developed the InMould-Plasma® process in conjunction with the Plastics Technology Institute at the University of Paderborn. This process can be used to join previously incompatible materials such as PP (polypropylene) and TPU (thermoplastic polyurethane) to create diverse plastic combinations.
With the InMould-Plasma® process, the plasma is activated inside the mold, thus reducing the entire manufacturing cycle to a single process step. Additional steps such as the separate plasma treatment of the semi-finished part, a downstream bonding process or the insertion of the second component (seal) are no longer needed.
In the 2-component demonstration model illustrated, plasma activation is integrated on the basis of tried and tested rotary disc technology. The mold for the InMould-Plasma® process is designed with three stations: 1. Production of pre-molded part (lid) 2. Plasma activation 3. Overmolding of elastomer component.
The plasma treatment takes place in an activation channel on the mold. A powerful plasma nozzle combined with suction ensures that the plasma is conducted along the entire length of the channel. The plasma reacts with the surface of the substrate as it passes over, activating it in seconds before the overmolding of the elastomer component.
• New material combinations
The InMould-Plasma® significantly enhances the adhesive strength of material combinations that were previously difficult or impossible to join. It extends the material spectrum to include PP+TPU, PBT+TPU and TPE-S or PC+TPE-S without the need for adhesion promoters, thereby improving the compression set of the elastomer, for example.
• Protection against seal loss
Soft components such as sealing gaskets remain in position to ensure reliable assembly with minimum risk of failure.
• Fully integrated and controlled process for quality assurance
Pressure and temperature sensors monitor the injection molding process and control plasma activation. InMould-Plasma® provides the basis for a high-quality technical process which can be monitored and controlled entirely by process parameters.
• Allows for different mold concepts
Rotary discs, sliding tables, cube or stack turning technology – diverse tool concepts can be used with InMould-Plasma® systems. Since the process does not require any clamping force, it can also be used outside the area between the machine’s clamping plates.
• Increased design flexibility
Soft components can be applied where they are needed or should ideally be located, for example on rotationally symmetrical components. This removes any restrictions due to geometric constraints or anchoring points for soft components.
• Reduced production costs
The production of multi-component parts on an injection molding machine inline without the need for additional assembly processes, extensive opportunities for process and quality control, advantageous use of standard plastics – the InMould-Plasma® technology offers diverse solutions for cost effective production.
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