Grain size dependence of fracture toughness for fine grained alumina

► Fully dense fine grained aluminas with grain size from 290 nm to 3.3 μm were obtained. ► Fracture toughness values with different grain sizes were statistically analyzed. ► Fracture toughness in fine grained alumina is independent of grain size. ► Characteristic fracture toughness in fine grained...

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Published inScripta materialia Vol. 65; no. 2; pp. 143 - 146
Main Authors Yao, Wenlong, Liu, Jing, Holland, Troy B., Huang, Lin, Xiong, Yuhong, Schoenung, Julie M., Mukherjee, Amiya K.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2011
Subjects
Aluminum oxide
Ceramics
Flexing
Fracture toughness
Grain size
Mathematical analysis
Samples
Surface cracks
Toughness
Ultrafine grained microstructure
Weibull distribution
Toughness
Ceramics
Weibull distribution
Ultrafine grained microstructure
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Abstract ► Fully dense fine grained aluminas with grain size from 290 nm to 3.3 μm were obtained. ► Fracture toughness values with different grain sizes were statistically analyzed. ► Fracture toughness in fine grained alumina is independent of grain size. ► Characteristic fracture toughness in fine grained alumina is 3.37 MPa m 1/2. The fracture toughness of a series of fully dense polycrystalline alumina samples prepared by electrical field assisted sintering with grain sizes varying from ∼290 nm to ∼3.3 μm was measured using the surface crack in flexure method. Fracture toughness values for different grain sizes were statistically analyzed based on the Weibull distribution. It was found that the fracture toughness in fine grained alumina is independent of grain size. The characteristic fracture toughness calculated from the Weibull distribution is 3.37 MPa m 1/2.
AbstractList The fracture toughness of a series of fully dense polycrystalline alumina samples prepared by electrical field assisted sintering with grain sizes varying from ~ 290nm to ~ 3.3 mu m was measured using the surface crack in flexure method. Fracture toughness values for different grain sizes were statistically analyzed based on the Weibull distribution. It was found that the fracture toughness in fine grained alumina is independent of grain size. The characteristic fracture toughness calculated from the Weibull distribution is 3.37MPam super(1/2).
► Fully dense fine grained aluminas with grain size from 290 nm to 3.3 μm were obtained. ► Fracture toughness values with different grain sizes were statistically analyzed. ► Fracture toughness in fine grained alumina is independent of grain size. ► Characteristic fracture toughness in fine grained alumina is 3.37 MPa m 1/2. The fracture toughness of a series of fully dense polycrystalline alumina samples prepared by electrical field assisted sintering with grain sizes varying from ∼290 nm to ∼3.3 μm was measured using the surface crack in flexure method. Fracture toughness values for different grain sizes were statistically analyzed based on the Weibull distribution. It was found that the fracture toughness in fine grained alumina is independent of grain size. The characteristic fracture toughness calculated from the Weibull distribution is 3.37 MPa m 1/2.
Author Yao, Wenlong
Liu, Jing
Xiong, Yuhong
Holland, Troy B.
Schoenung, Julie M.
Huang, Lin
Mukherjee, Amiya K.
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Ceramics
Weibull distribution
Ultrafine grained microstructure
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Snippet ► Fully dense fine grained aluminas with grain size from 290 nm to 3.3 μm were obtained. ► Fracture toughness values with different grain sizes were...
The fracture toughness of a series of fully dense polycrystalline alumina samples prepared by electrical field assisted sintering with grain sizes varying from...
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elsevier
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StartPage 143
SubjectTerms Aluminum oxide
Ceramics
Flexing
Fracture toughness
Grain size
Mathematical analysis
Samples
Surface cracks
Toughness
Ultrafine grained microstructure
Weibull distribution
Title Grain size dependence of fracture toughness for fine grained alumina
URI https://dx.doi.org/10.1016/j.scriptamat.2011.03.032
https://search.proquest.com/docview/889400049
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