Determination of out‐of‐plane electrical resistivity for nonoxide ceramic matrix composites

Mansour, Rabih; Singh, Yogesh; Morscher, Gregory N.; Breede, Fabian; Koch, Dietmar

doi:10.1111/ijac.12865

Cited by 1 publication

(2 citation statements)

References 23 publications

(24 reference statements)

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“…DCPD is a method of electrical sensing that has been shown to be sensitive to the growth of transverse cracks in metals during fatigue crack growth experiments, 2–4 fiber and composite damage in C‐fiber reinforced polymer matrix composite systems 5–11 and transverse matrix cracking in ceramic matrix composite systems 11–20 . For all these studies, the emphasis is on in‐plane damage.…”

Section: Introductionmentioning

confidence: 99%

“…DCPD is a method of electrical sensing that has been shown to be sensitive to the growth of transverse cracks in metals during fatigue crack growth experiments, [2][3][4] fiber and composite damage in C-fiber reinforced polymer matrix composite systems [5][6][7][8][9][10][11] and transverse matrix cracking in ceramic matrix composite systems. [11][12][13][14][15][16][17][18][19][20] For all these studies, the emphasis is on in-plane damage. There has been some work on using DCPD to monitor interlaminar crack growth in CMCs at room 21 and elevated 22 temperature.…”

Section: Introductionmentioning

confidence: 99%

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The use of electric potential drop techniques to detect delamination in a melt‐infiltrated SiC‐based composite

Gupta

Singh

Morscher

2021

Int J Applied Ceramic Tech

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For composite systems where the matrix is electrically conductive, the possibility that the nature of electrical current flow in the composite can be used to detect defects such as out‐of‐plane delamination. Melt‐infiltrated SiC‐based composites are an ideal candidate material for such to verify this since the Si content of the matrix is the primary current carrier in the system. Two different potential drop techniques utilizing the four‐point probe method were developed on a composite panel that had a large preexisting delamination defect that occurred during processing. The first technique incorporated current leads to supply current in a through‐thickness manner and determine the nature of current spreading (voltage drop) some distance away from the current source to assess the location of the delamination. The other technique incorporated current leads in a more conventional manner to produce axial current flow and assessed the nature of current flow in between the current leads on both surfaces of the composite. In this way, in the presence of a delamination, current flow was forced to primarily flow on the side of the current leads. Both techniques were quite effective at locating the preexisting delamination in a panel of 2D woven Tyranno ZMI slurry‐derived melt‐infiltrated SiC composite.

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Section: Introductionmentioning

confidence: 99%