Development of a High Pressure Die Casting Tool for Partial Integration of Glass Fiber Structures

Jan Clausen; Milan Kelch; Franz Josef Wöstmann; Matthias Busse

doi:10.4028/www.scientific.net/KEM.742.520

Paper Titles

In-Line Integration of Sensors in Thermoplastic Composite Structures Using Novel Continuous Orbital Winding Technology
p.490

Torque-Fiber-Winding (TFW)-Procedure: Manufacturing of Textile-Based Unidirectional Prepreg for Raw Material and Material Development of Carbon Fibre Reinforced Thermoplastics
p.498

One Step Production of Bicomponent Yarns with Glass Fibre Core and Thermoplastic Sheath for Composite Applications
p.506

Mechanical Properties of Co-Extruded Aluminium-Steel Compounds
p.512

Development of a High Pressure Die Casting Tool for Partial Integration of Glass Fiber Structures
p.520

HybridRTM - Quality Controlled Manufacturing of Hybrid Material Composites through Resin Transfer Moulding
p.527

Nozzle and Hot Runner Systems for Injection Moulding Machines for the Manufacturing of Moulded Thermoplastic Composite Parts with Skin-Core Structure (Sandwich Mouldings)
p.535

FE-Based Design of a Forging Tool System for a Hybrid Bevel Gear
p.544

Development of Nonwoven Preforms Made of Pure Recycled Carbon Fibres (rCF) for Applications of Composite Materials
p.555

HomeKey Engineering MaterialsKey Engineering Materials Vol. 742Development of a High Pressure Die Casting Tool...

Development of a High Pressure Die Casting Tool for Partial Integration of Glass Fiber Structures

Abstract:

Due to the growing demand for lightweight solutions in a wide range of industries, the selection and combination of various materials is becoming more and more important. As a result, the need for suitable joining technologies is increasing along with it. Within the DFG research group "Schwarz-Silber" ("black-silver"), Fraunhofer IFAM is investigating so-called transitional structures in cooperation with the University of Bremen. In this process, glass fiber structures are integrated into aluminum by a high pressure die casting process. These structures are used for the electrochemical insulation between aluminum and carbon fiber textiles, which are connected by textile processes in a subsequent production step. A solid hybrid structure is finally achieved through a resin-impregnation process. The key challenges are the positioning, pre-tensioning and infiltration of the glass fiber structures within the high pressure die casting process. In order to meet these challenges, a customized die casting tool was developed within the project. With the aid of mold-filling simulations, the die system of the die casting tool was optimized to achieve better infiltration of the fiber bundles and to additionally support the position of the glass fibers in the casting process. After the design of the molding tool, the implementation was carried out in collaboration with a toolmaker. In subsequent, up-to-date investigations, the positioning and infiltration of different variants of glass fiber structures is evaluated. The results are compared with previous attempts to position and infiltrate the glass fiber structures to assess the effect of the optimized newly designed tool.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 742)

Pages:

520-526

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.742.520

Citation:

Cite this paper

Online since:

July 2017

Authors:

Jan Clausen*, Milan Kelch, Franz Josef Wöstmann, Matthias Busse

Keywords:

Aluminium, Carbon Fiber Reinforced Polymers (CFRP), Glass Fiber, High Pressure Die Casting, Hybrid, Joining Technology, Lightweight Materials, Multi-Material, Tool Design, Transition Structure

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] J. Clausen, U. Specht, M. Busse, A. Lang, J. Sanders: Integration of glass fiber structures in aluminum cast parts for CFRP aluminum transition structures. Procedia Materials Science, Vol. 2, 2013, pp.197-203.

DOI: 10.1016/j.mspro.2013.02.024

Google Scholar

[2] J. Clausen, R. Van der Auwera, F. -J. Wöstmann, A. Schmid: Integration textiler Strukturen in den Aluminium-Druckguss zur Realisierung integraler CFK-Aluminium-Verbindungen. Conference Proceedings 7. Landshuter Leichtbau-Colloquium, Landshut, 2015, pp.197-207.

Google Scholar

[3] A. Kunze, J. Clausen, R. Van der Auwera, A. von Hehl, H. -W. Zoch, M. Busse: Influence of material parameters on the tensile force of integral Aluminum CFRP Hybrid Structures fabricated by casting technology. Proceedings Euro Hybrid – Materials and Structures, Kaiserslautern, 2016, pp.30-35.

Google Scholar

[4] E. Brunhuber: Praxis der Druckgussfertigung, fourth ed., Schiele & Schön, Munich, (1991).

Google Scholar

[5] B. Nogowizin: Theorie und Praxis des Druckgusses, Schiele & Schön, Berlin, (2011).

Google Scholar

[6] H. Ballmes: Aluminiummatrix-Faserverbundwerkstoffe im Druckgießprozess – Verfahrens-grundlagen und Produkteigenschaften. Dissertation, Nuremberg, (2013).

Google Scholar