C.M. de Zeeuw scite author profile

C.M. de Zeeuw

2Publications

3Citation Statements Received

158Citation Statements Given

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Delft University of Technology

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Strategies for swift automated pick-and-place operations of multiple large-sized layers of reinforcement - a critical review

Zeeuw

Peeters

Bergsma

et al. 2020

Advanced Manufacturing: Polymer & Composites Science

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For the application of composite materials to become more widespread and replace traditional materials their manufacturing processes and final products will need to be competitive and be e.g. lighter, stronger or stiffer and quicker, easier or more cost-efficient to produce than traditional materials. The state of the art for pick-and-place operations for the manufacturing of composite parts focuses on handling single lab-sized layers at undisclosed speeds. The process could however be more competitive by being able to handle more and larger layers in a faster manner than currently presented in research. The aim of the paper is to evaluate the existing pick-and-place strategies on their suitability for the swift automated handling of multiple large-sized layers of reinforcement. The review shows that many of the existing techniques could be suitable for different scenario's and discusses which factors are to be taken into account when dealing with large layers, more than one layer or rapid handling.

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Setting bounds for in-plane shear induced fiber angle deviations in bi-axial non-crimp fabrics

Zeeuw

Peeters

Bergsma

et al. 2022

Journal of Industrial Textiles

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For pick-and-place processes to become widely implemented in industry a consistent and acceptable product quality needs to be achieved. In the state of the art it is assumed that reinforcements will be in perfect condition at the start of forming or draping. In reality the handling process can already result in undesired deformations. The current work will look at fiber angle deviations that occur during this process due to in-plane shear. It is shown that bounds can be set for these fiber angle deviations based on experimental work. Periodic representative volume element homogenization is used to obtain homogenized material properties for a bi-axial non-crimp fabric with a specific construction. With these material properties the in-plane shear strain, and thus the fiber angle deviations, can be predicted. The presented methodology and results obtained using it can be a basis in the design process for automated handling of reinforcements and for in-situ quality control of the pick-and-place process.

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C.M. de Zeeuw

Strategies for swift automated pick-and-place operations of multiple large-sized layers of reinforcement - a critical review

Setting bounds for in-plane shear induced fiber angle deviations in bi-axial non-crimp fabrics

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