Fiber Volume Fraction Influence on Randomly Distributed Short Fiber Tungsten Fiber Reinforced Tungsten Composites

Mao, Yiran; Riesch, Johann; Sistla, Sree; Linsmeier, Christian; Gietl, Hanns; Broeckmann, Christoph; Wu, Yucheng; Terra, Alexis; Neu, Rudolf; Coenen, Jan W.; Almanstötter, Jürgen; Chen, Chang; Höschen, Till; Raumann, Leonard

doi:10.1002/adem.201901242

Journal Article

FZJ-2020-01650

Fiber Volume Fraction Influence on Randomly Distributed Short Fiber Tungsten Fiber Reinforced Tungsten Composites

Mao, Y. (Corresponding author)FZJ* ; Coenen, J. W.FZJ* ; Riesch, J. ; Sistla, S. ; Almanstötter, J. ; Terra, A.FZJ* ; Wu, Y. ; Raumann, L.FZJ* ; Chen, C. ; Höschen, T. ; Gietl, H. ; Neu, R. ; Broeckmann, C. ; Linsmeier, C.FZJ*

2020
Deutsche Gesellschaft für Materialkunde Frankfurt, M.

Advanced engineering materials 22(6), 1901242 (2020) [10.1002/adem.201901242]

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Please use a persistent id in citations: http://hdl.handle.net/2128/25247 doi:10.1002/adem.201901242

Abstract: For future fusion reactors, tungsten (W) is currently the main candidate for the application as plasma‐facing material due to its several advanced properties. To overcome the brittleness of W, randomly distributed short W fiber‐reinforced W (Wf/W) composites have been developed using field‐assisted sintering technology (FAST). Herein, Wf/W materials with different fiber volume fraction (20–60%) are manufactured by FAST process to study the fiber volume fraction influence on the composite properties. Wf/W with ductile fibers and brittle fibers is produced using different tool setups during the production. Three‐point bending tests on prenotched samples, 4‐point bending tests, and tensile tests have been performed to determine the fracture behavior and flexural/tensile strength of the material. Wf/W materials with 30–40% fiber volume fraction exhibit a promising pseudoductile behavior, similar to fiber‐reinforced ceramic composites. However, Wf/W with 20% and >50% fiber volume fraction shows only a limited extrinsic toughening effect. In terms of flexural strength, with increasing fiber volume fraction, the tensile/flexural strength does not show a clear increasing tendency, or even lightly decreases.

Classification:

ddc:660

Contributing Institute(s):

Plasmaphysik (IEK-4)

Research Program(s):

113 - Methods and Concepts for Material Development (POF3-113) (POF3-113)

Appears in the scientific report 2020

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; Clarivate Analytics Master Journal List ; Current Contents - Engineering, Computing and Technology ; IF < 5 ; JCR ; SCOPUS ; Science Citation Index Expanded ; Web of Science Core Collection

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