Direct Fiber Simulation of a Compression Molded Ribbed Structure Made of a Sheet Molding Compound with Randomly Oriented Carbon/Epoxy Prepreg Strands—A Comparison of Predicted Fiber Orientations with Computed Tomography Analyses

Autor:	Tim A. Osswald, Stephan K. Hohn, Jan Teuwsen
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	Materials science fiber orientation Compression molding 02 engineering and technology Molding (process) 010402 general chemistry discontinuous fiber composites (DFC) compression molding sheet molding compound (SMC) carbon fiber sheet molding compound (CF-SMC) randomly oriented strands (ROS) computed tomography (CT) process simulation direct fiber simulation (DFS) prepreg platelet molding compound (PPMC) tow-based discontinuous composite (TBDC) 01 natural sciences lcsh:Technology Fiber Composite material Anisotropy lcsh:Science Engineering (miscellaneous) Fiber simulation lcsh:T Epoxy 021001 nanoscience & nanotechnology Compression (physics) 0104 chemical sciences visual_art Ceramics and Composites visual_art.visual_art_medium Sheet moulding compound lcsh:Q 0210 nano-technology
Zdroj:	Journal of Composites Science; Volume 4; Issue 4; Pages: 164 Journal of Composites Science, Vol 4, Iss 164, p 164 (2020)
ISSN:	2504-477X
DOI:	10.3390/jcs4040164
Popis:	Discontinuous fiber composites (DFC) such as carbon fiber sheet molding compounds (CF-SMC) are increasingly used in the automotive industry for manufacturing lightweight parts. Due to the flow conditions during compression molding of complex geometries, a locally varying fiber orientation evolves. Knowing these process-induced fiber orientations is key to a proper part design since the mechanical properties of the final part highly depend on its local microstructure. Local fiber orientations can be measured and analyzed by means of micro-computed tomography (µCT) and digital image processing, or predicted by process simulation. This paper presents a detailed comparison of numerical and experimental analyses of compression molded ribbed hat profile parts made of CF-SMC with 50 mm long randomly oriented strands (ROS) of chopped unidirectional (UD) carbon/epoxy prepreg tape. X-ray µCT scans of three entire CF-SMC parts are analyzed to compare determined orientation tensors with those coming from a direct fiber simulation (DFS) tool featuring a novel strand generation approach, realistically mimicking the initial ROS charge mesostructure. The DFS results show an overall good agreement of predicted local fiber orientations with µCT measurements, and are therefore precious information that can be used in subsequent integrative simulations to determine the part’s mesostructure-related anisotropic behavior under mechanical loads.
Databáze:	OpenAIRE
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