NetComposites Ltd has transferred the rights and ownership of this website to Gardner Business Media Inc.
On 1st January 2020, NetComposites' media assets including netcomposites.com, newsletters and conferences were transferred to Composites World (Gardner Business Media).
This site is no longer being updated. Please direct all enquiries to firstname.lastname@example.org.
For further details see our joint press release.
The experts for Automation and Production Technology of the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM will present a recently developed end-effector for automated high-precision placement of adhesive films at JEC WORLD 2019.
Digitalisation solutions for faster commissioning of robot-assisted production plants, measures to avoid fibre overhang when drilling and milling carbon fibre reinforced plastics (CFRPs), and the combined use of in-mould coatings with residue-free Flexrelease film will also be presented.
Enhanced production efficiency by creating a digital twin of the real plants
Digitalisation opens up a host of new opportunities for increasing the production efficiency in various industries. Many processing steps can be optimised using simulation, leading to enhanced productivity, shorter commissioning times, and ultimately cost savings. The prerequisite for this is a virtual copy of the real respectively planned plant that not only gives a realistic representation of the components but also includes the overriding control logic. Fraunhofer IFAM scientists have already successfully used this approach in the Autoglare project, funded by the Federal Ministry for Economic Affairs and Energy, for the offline programming of robot motion and its linking with signals of the real plant control system, and for loading the program directly into the robot control system. Amongst other things, this allows the advance detection of processing faults and considerably reduces the time for manual robot teaching. The results will be presented at JEC WORLD 2019 in the form of a video.
Automated high-precision placement of adhesive films
In the same project (Autoglare), Fraunhofer IFAM experts for Automation and Production Technology also developed an end-effector for the automated placement of adhesive films. This can be seen at JEC WORLD 2019. The goal was to place double-sided adhesive tape on flat, curved, and double curved surfaces with an accuracy of ± 2 millimeters. This challenge was in fact surpassed, with a placement accuracy of ± 1 millimeter being achieved using a very compact end-effector weighing only 75 kg. The key to this was the development of a control system that applies a constant tension to the adhesive tape. This control system is able to place any length of adhesive tape from a few millimeters up to the length of a whole adhesive film roll.
In order to allow production operators to easily use the end-effector, as many control parameters as possible are automatically recorded by robust sensors and evaluated internally. The measurement technology integrated into the adhesive film end-effector also precisely records the contact pressure, the cut lengths, the remaining length of adhesive film, and many other parameters for online quality assurance of the process.
Besides being used for placing strips of adhesive film on aluminum surfaces, the versatile end-effector can be used for the precise placement of other adhesive materials on other component surfaces. This requires only minor modifications to be carried out.
Drilling and machining of CFRPs without fibre overhang
Fraunhofer IFAM brings together expertise in advanced materials and in the robot-assisted machining of large CFRP structures. Industrial collaboration with Mitsubishi Gas Chemical has seen the successful manufacture of sample CFRP components and demonstrated the effectiveness of SOLID LUBRICANT for drilling and milling. The SOLID LUBRICANT manufactured by Mitsubishi Gas Chemical is an effective additive that not only prolongs the service life of tools but has significant benefits for the quality of components. The collaborative work involved Fraunhofer IFAM analysing and evaluating the effect of SOLID LUBRICANT on the component quality and the influence on surface residues. The longer service life and significantly improved component quality open up opportunities for industry and can benefit a wide range of different machining processes and material compositions.
The results and a selection of sample components will be presented on the booth of Mitsubishi Gas Chemical at JEC WORLD 2019 (Hall 5, Booth G 12).
Rotor blade manufacture using an in-mould coating with no need for grinding or mould cleaning
Fraunhofer IFAM scientists in the Automation and Production Technology department and in the Plasma Technology and Surfaces department have developed a release film for the efficient manufacture of CFRP components. Known as Flex the release film obviates the need to use solvent-based release agents that usually have to be removed from CFRP components and moulds by work-intensive grinding processes. The Flex release film stretches up to 300 percent for easy application to moulds. It can withstand curing temperatures up to 180 °C, so is suitable for virtually all thermosets. The release force of the film is determined by a plasma-polymer coating on the polymer film. This can be adapted for the respective process, resulting in easy demoulding with simultaneous protection. One of the biggest benefits is residue-free removal of the Flex release film from the CFRP component, enabling immediate coating of the component without further pre-treatment. If pore-free surfaces and primers are required, an in-mould coating can also be applied, meaning integrated coating of the component in the mould is realised in a single step. Fraunhofer IFAM will present a rotor blade having a length of over 4 meters that was manufactured using the Flex release film and an in-mould coating.
Visit Fraunhofer IFAM in Hall 5, Stand E 58 and Mitsubishi Gas Chemical in Hall 5, Stand G 12 at JEC World 2019.
Image provided by Fraunhofer Institute for Manufacturing Technology and Advanced Materials
For more information visit: