2008
DOI: 10.1007/s11661-008-9567-5
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Bifurcation and Deviation of Cleavage Paths at Through-Thickness Grain Boundaries

Abstract: The behavior of cleavage crack fronts at grain boundaries in free-standing silicon thin films is investigated through a microtensile experiment. In addition to the crystallographic orientation, the orientation of grain boundary plane also plays a critical role. With respect to the initial crack surface, if the inclination angle is relatively small, the crack tends to penetrate across the boundary; if the angle is large, the crack may either bifurcate along the boundary or turn back on another crystallographic … Show more

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“…This kind of bifurcation will result in secondary microcracks leading to smaller crystal blocks, and thereby to slender microfibrils. The phenomenon of microcrack or cleavage bifurcation has been a matter of extensive experimental and theoretical studies on various kinds of materials such metal alloys [58,59], ceramics [60] and polymers [61,62] that support the present hypothesis.…”
Section: Mechanism Of Fibril Initiationsupporting
confidence: 64%
“…This kind of bifurcation will result in secondary microcracks leading to smaller crystal blocks, and thereby to slender microfibrils. The phenomenon of microcrack or cleavage bifurcation has been a matter of extensive experimental and theoretical studies on various kinds of materials such metal alloys [58,59], ceramics [60] and polymers [61,62] that support the present hypothesis.…”
Section: Mechanism Of Fibril Initiationsupporting
confidence: 64%