Lanxess installs demo machine for hybrid moulding of Tepex composites material

German speciality chemicals company Lanxess’s subsidiary Bond-Laminates has taken into operation a demonstration cell for processing Tepex continuous-fibre-reinforced thermoplastic composites at its Brilon site. This enables Tepex to be both formed in a fully automated, near-series process and also simultaneously formed and overmoulded in a hybrid moulding process. “We want to familiarise our customers with the strengths of Tepex and how it is processed, as well as supporting the development of innovative components,” explains Ulrich Jecmeniza, applications engineer with Bond-Laminates. In addition, production processes of Tepex processors are to be simulated for quality assurance and improvement purposes. Bond-Laminates says it aims to use the demo to drive forward its own material development. This cell supplements a Technical Service Centre facility that Lanxess already operates at its Dormagen site.

The 130-tonne machine cell is manufactured by Austrian injection moulding machine maker Engel. The Tepex inserts are introduced to the machine using a magazine with separation function, so that various Tepex sections can be processed in a single production run. A highlight of the facility is two pyrometrically controlled infrared furnaces with a “drawer system” that have been newly developed by Engel.

These enable the inserts to be heated quickly in an even, material-specific way, without causing any damage to the thermoplastic matrix of Tepex. An Engel easix six-axis articulated arm robot with vacuum grippers adapted to Tepex takes over the handling of the inserts.

“The high speed involved in heating and handling the inserts ensures a high degree of reproducibility for the entire production process, even for very thin-walled components,” says Jecmeniza.

The maximum projected size for the moulded parts is 330 x 280 mm, which means that both structural and visible parts in these dimensions can easily be processed. Heat management in the mould can be either isothermal or variothermal as required. Variothermal mould temperature control results in distortion-free, high-gloss surfaces. The production cell is also equipped with a clamping system and associated grippers for inserts with standardised section sizes. These kinds of sections are used to manufacture the specimens needed for testing to standard requirements in material development or shaping experiments, for example. “The inclusion of both a clamping and a magazine system makes our demonstration cell very flexible and versatile, enabling it to cover a broad range of applications,” says Jecmeniza.

The new cell will initially be fitted with a mould for the sports goods industry. The relevant component consists of a Tepex section with TPU matrix that is overmoulded with TPU on both sides after shaping. Other near-series moulds will soon be available. Jecmeniza: “This will enable us to cover applications for our most important customer groups – that is to say the automobile, consumer electronics and sports goods industries.”

The hybrid moulding process is arousing considerable interest worldwide because it enables the cost-effective production of very lightweight, but still immensely strong structural components in large to extremely large volumes. Numerous international manufacturers of plastics machines have therefore now developed appropriate production plants and presented these at trade fairs – as was recently seen at IPF 2014 in Tokyo. Manufacturers of other components in the hybrid moulding process – such as furnaces, fully automated handling systems, testing technology or moulds – are also hard at work, which opens up a wide range of possibilities for processors when they are selecting equipment.


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