Crack Stability and Its Effect on Fracture Toughness of Hot‐Pressed Silicon Nitride Beam Specimens

Bar‐On, Isa; Baratta, Francis I.; Cho, Kyu

doi:10.1111/j.1151-2916.1996.tb08976.x

Cited by 31 publications

(19 citation statements)

References 21 publications

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“…As discussed by Bar-On et al, 39 unstable crack extension results in apparent increases of fracture toughness values compared to those determined during quasi-static crack growth. Therefore, the semi-stable crack propagation obtained in this work for the alumina specimens (Fig.…”

Section: Toughness Parametersmentioning

confidence: 89%

Fracture behaviour of microcrack-free alumina–aluminium titanate ceramics with second phase nanoparticles at alumina grain boundaries

Bueno

Berger

Moreno

et al. 2008

Journal of the European Ceramic Society

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Section: Toughness Parametersmentioning

confidence: 89%

Fracture behaviour of microcrack-free alumina–aluminium titanate ceramics with second phase nanoparticles at alumina grain boundaries

Bueno

Berger

Moreno

et al. 2008

Journal of the European Ceramic Society

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“…In this sense, load-displacement curves showing unstable fracture or sudden load decreases ("pop-in") prior to further stable propagation (i.e. semi-stable fracture) have been reported for fine grained alumina (d 50 ∼ 3.5 m) 16 and silicon nitride (d 50 ∼ 3 m) 17 .…”

Section: Introductionmentioning

confidence: 96%

Crack mouth opening displacement controlled fracture tests of brittle ceramics

García‐Prieto

Baudı́n

2010

Journal of the European Ceramic Society

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“…Note, however, that macroscopic sample testing is generally conducted under displacement control, as this offers greater stability than load-control, leading to more reliable measurements [21,[32][33][34]. Moreover, at the macroscopic scale, a variety of alternative and reliable testing methodologies and configurations exist to probe the toughness of materials, also with SCG sensitive materials [35,36].…”

Section: Applicationmentioning

confidence: 99%

On measuring fracture toughness under load control in the presence of slow crack growth

Žagar¹,

Singh²,

Pejchal³

et al. 2015

Journal of the European Ceramic Society

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The influence of slow crack growth in ceramics on the measurement of their fracture toughness under steadily increasing controlled load (as is generally practiced in microscale testing) is analyzed to identify conditions under which the phenomenon can cause error. The analysis considers the two regimes classically observed, namely a power-law variation of crack growth rate on the stress intensity factor K, and, at higher K values, a regime of fixed crack tip velocity up to rapid fracture at K = K c . Results are presented for standard test specimens in a convenient graphical form and also in the form of upper bound expressions for loading rates above which measurements should be valid. It is shown that, when subcritical crack growth is present, chevron-notched samples present advantages over more conventional precracked specimens.

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Crack Stability and Its Effect on Fracture Toughness of Hot‐Pressed Silicon Nitride Beam Specimens

Cited by 31 publications

References 21 publications

Fracture behaviour of microcrack-free alumina–aluminium titanate ceramics with second phase nanoparticles at alumina grain boundaries

Fracture behaviour of microcrack-free alumina–aluminium titanate ceramics with second phase nanoparticles at alumina grain boundaries

Crack mouth opening displacement controlled fracture tests of brittle ceramics

On measuring fracture toughness under load control in the presence of slow crack growth

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