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ENGEL AUSTRIA GmbH

Use of regranulate from thermoplastic sheet offcuts in injection moulding

100 percent material utilisation

Thermoplastic composites are paving the way for lightweight automotive design into the circular economy and are therefore very popular with design engineers. With component quantities in the high six-digit range per year, the processing of organic sheets is currently the most important thermoplastic composite technology. One focus of further development is the recycling of production waste such as offcut residues. ENGEL has been able to demonstrate that regranulates made from thermoplastic sheet offcuts can be processed in injection moulding while retaining their material properties. This makes it possible to keep the composite raw materials completely in the cycle.

Thermoplastic sheets are fibre-matrix preforms that are mostly offered as sheets. They consist of continuous fibres embedded in a thermoplastic matrix. This thermoplastic-only approach allows for the efficient integration of the forming and functionalisation of the blanks, which in turn reduces unit costs and makes the technology attractive to the automotive industry. During processing,

  1. the thermoplastic sheets are heated,
  2. formed directly in the injection mould and
  3. then immediately provided with the desired detailed geometries by injection moulding.

As a rule, materials from the matrix material group of the thermoplastic sheet are used for injection moulding. The intent is to use regenerated materials from offcut residues of thermoplastic sheets in the future. This would make it possible to produce components which consist entirely of a single fibre-reinforced thermoplastics and which could be easily recycled at the end of their service life with a view to the circular economy.

Both in the production of the sheet goods and during processing, waste material is produced even with optimised nesting. The aim of nesting is to arrange the required geometries such that as little waste as possible occurs and no raw material is wasted. Low levels of waste of between 5 and 10 percent of the thermoplastic sheet area exist, but unfavourable nesting or complex component structures can cause the amount of waste to rise to 35 percent or more. Recycling this production waste therefore not only contributes to greater sustainability, but also saves costs.

To demonstrate feasibility, injection moulding machine manufacturer ENGEL (Schwertberg, Austria) and PURE LOOP, a company of the EREMA Group based in Ansfelden, Austria, which specialises in plastics recycling, have conducted a series of tests to investigate the processing of thermoplastic sheet offcuts and downstream processing of the regenerate in a manner appropriate to the material.

 

Keeping the length of the glass fibres

For the tests, pellets were produced from thermoplastic sheet offcuts based on unidirectional (UD) tapes. For this purpose, the offcuts were shredded and the fibre content reduced during melting by adding unreinforced matrix material. Thermoplastic sheets typically have a fibre content of up to 72 wt%, which would be too high for processing in injection moulding. When the fibre content is reduced, the fibres need to be uniformly dispersed in the matrix volume. The aim is for the regranulates to achieve a property level comparable to that of virgin long glass fibre pellets.

In addition to stiffness, the key factor in lightweight engineering applications is the high mechanical load-bearing capacity of the material, which can only be ensured if the length of the fibres is maintained and the fibres are evenly distributed in the matrix. Traditionally, long glass fibre reinforced materials result in materials with shorter fibres when reprocessed. The challenge in recycling the continuous fibre-reinforced thermoplastic sheet preforms was therefore to establish a preparation and processing method in injection moulding that en-sures the retention of the greatest possible fibre lengths.


Powerful shredder-extruder combination

For the tests, ENGEL used Progano brand thermoplastic sheets by Profol (Halfing, Germany), which are made up of UD tapes with 72 wt.% glass fibres in a polypropylene matrix. Customer-specific cutting results in offcuts. An ISEC evo 302 production unit by PURE LOOP was used to regranulate the offcut waste. The special feature of this production unit is that the shredder and extruder screw are mounted on a shared shaft. The infeed material was thermoplastic sheet strips with a length of approx. 1.5 metres. The aim was to reduce the fibre content to 40% by weight.

The procedure

  1. The offcut material was fed to the production unit with the help of a conveyor belt.
  2. It then drops into a hopper, at the lower end of which the shaft begins.
  3. The cutting elements are located in this area of the shaft.
  4. The shredded material passes through a compactor section to an iris valve that controls the material flow.
  5. Unreinforced PP is fed in pellet form and the material mixture is plasticised.
  6. Not using a filter in the extrusion section was a deliberate decision; this would remove the long fibres.
  7. Finally, the material was hot pelletised off and dried in a centrifuge.

For analysis, the resulting pellets were incinerated and optical glass fibre length evaluation was performed. It was found that sufficiently long fibres were obtained with the treatment chain under investigation. Glass fibres with a length of more than 4 mm were found in the incineration residue. The adjustment of the fibre content can be optimised when cutting the trim parts. The smaller the parts, the more uniformly they are ground and mixed with the matrix material. Calculated back from the density, the recycled material has a fibre weight content of around 35% by weight.

This successful recycling of production waste shows the potential for automotive components at the end of the vehicle's service life. After cleaning the components and removing any metal inserts used, they can be recycled into regranulate in the same way.

 

No difference to virgin material in injection moulding

Subsequently, injection moulding tests were carried out on the regranulate obtained in order to assess both the processability and the component quality to be achieved. In ENGEL's technology centre at the company's headquarters in Schwertberg, sample parts were pro-duced on an e-victory 1640/300 injection moulding machine, a production unit that is predes-tined for the production of medium-sized thermoplastic sheet components. Due to its tie-barless clamping unit, the e-victory hybrid machine with electric injection unit enables fast hot handling, which is crucial for the feasibility of the process when manufacturing products with thin thermoplastic sheet.

The processing trials focused on the process behaviour of the regranulate compared to series production material. As a reference, a long glass fibre reinforced virgin material, a type GB477HP PP GF40 by Borealis, was processed.

Both materials were plasticised at three different screw speeds in order to assess the process consistency. Impeccable plasticising behaviour can be induced from the more-or-less linear plasticising curves without dips. The plasticising time fluctuations of the two materials were comparable.

The regranulate was premixed in a masterbatch mixer on a trial basis in order to simulate the influence of an optional homogenisation step – for example in a silo by means of an agitator. Weighing the components showed slightly higher standard deviations for the regranulate compared to the virgin material. In absolute terms, however, the standard deviations were very small for both materials. With a target shot weight of 400 grams, the standard deviation when processing the regranulate was in the region of 0.7 grams, while it was about 0.15 grams when processing the virgin material.

 

Sights set on automotive high-volume production

Since the materials are well homogenised during injection moulding, no significant differences were expected between the regranulate and the virgin material when evaluating the fibre lengths and proportions; this was confirmed by the tests. Additional homogenisation in the masterbatch mixer did not bring about any further improvement of what were already good values.

In summary, it can be stated that the regranulate can be processed in injection moulding just as well as the virgin material. Since the materials are well homogenised during injection moulding, no significant differences were expected between the regranulate and the virgin material when evaluating the fibre lengths and proportions; this was confirmed by the tests. Additional homogenisation in the masterbatch mixer did not bring about any further improvement of what were already good values. In summary, it can be stated that the regranulate can be processed in injection moulding just as well as the virgin material.

After the successful regranulation and injection moulding tests using tape-thermoplastic sheets, the question arose as to their transferability to real components. ENGEL and PURE LOOP collaborated with LIT Factory in Linz, Austria, to produce sample parts with near-series maturity in an integrated process. The continuous fibre-reinforced thermoplastic sheets were cut to size and fed to the handling robot via magazines. They were heat-ed in the integrated IR oven, inserted by the articulated robot into the mould of the ENGEL duo 350 injection moulding machine, formed there and overmoulded with offcut waste regranulate.

The very good component quality achieved and the high efficiency of the integrated manufacturing process demonstrate the huge potential of processing thermoplastic sheet offcut waste for series production applications in lightweight automotive engineering. ENGEL and PURE LOOP are continuing to work together to leverage this potential.

 

 

This article was published in the german journal "Kunststoffe" 3/2021.

FACT BOX
Input material:

Organoblech-Verschnittabfällen auf Basis von UD-Tapes

Model / Features: Typs ISEC evo 302