Mixed mode I/II and I/III fracture toughness investigation for preplaced aggregate concrete mixtures: Experimental study and theoretical prediction

Raeisi, Roya; Rezaie, Freydoon; Aliha, M. R. M.

doi:10.1111/ffe.14328

Fatigue Fract Eng Mat Struct

2024

DOI: 10.1111/ffe.14328

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Mixed mode I/II and I/III fracture toughness investigation for preplaced aggregate concrete mixtures: Experimental study and theoretical prediction

Roya Raeisi,

Freydoon Rezaie,

M. R. M. Aliha

Abstract: In this paper, mixed mode I/II and I/III fracture toughness of preplaced aggregate concrete was studied using an edge‐notched disc bend specimen. The results showed the dependency of the fracture toughness value on the mode mixity. The values of modes I, II, and III fracture toughness were obtained to be equal to , , and , respectively. Several theoretical fracture criteria were examined for predicting the trends of experimental data in the tested preplaced aggregate concrete material. The 3D averaged strain e… Show more

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Cited by 2 publications

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Comparing Different Procedures for Calculating Flexural Cracking Toughness Using Edge‐Notched Disc Bend Specimen Under Modes I and III

Hoseini,

Sohrabi,

Mousavi

et al. 2024

Fatigue Fract Eng Mat Struct

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This research used 30%, 40%, 50%, and 60% coarse aggregates and 0.15%, 0.3%, and 0.45% wavy steel fibers to make end‐notched disc bend self‐compacting concrete specimens for calculating and comparing flexural cracking toughness index by ASTM C1609, JSCE SF‐4, and JG/T 472‐2015 methods under pure modes I and III. The variation trends of different procedures under pure mode I was more affected by coarse aggregates and fibers had no noticeable influence. But under pure mode III increasing both fibers and aggregates improved the flexural cracking toughness. The estimation of JG/T 472‐2015 method was better than other methods under pure mode I. In pure mode III, due to positive effect of fibers on the pre‐peak, peak, and post‐peak areas, the deflection exceeds 1 mm. Hence, calculating the area under the load–displacement curve is facilitated for the ASTM C1609 and JSCE SF‐4 methods up to L/150 deflections.

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Comparing Different Procedures for Calculating Flexural Cracking Toughness Using Edge‐Notched Disc Bend Specimen Under Modes I and III

Hoseini,

Sohrabi,

Mousavi

et al. 2024

Fatigue Fract Eng Mat Struct

View full text Add to dashboard Cite

show abstract

Differential Response of Fracture Characterization of Mode III Fracture in Sandstone Under Dynamic Versus Static Loading

Qin,

Su,

et al. 2024

Fatigue Fract Eng Mat Struct

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This work examines the effect of loading rate () on the mode III fracture behavior of sandstone. Edge‐notched diametrically compressed (ENDC) disc sandstone specimens were tested under different static and dynamic mode III fracture loadings, revealing a clear loading rate effect on both mode III and mode I fractures. Specifically, the peak load and fracture toughness (KIIIC, KIC) increase as the increases across both static and dynamic scales. At the static scale, the KIIIC is about 1.28–1.38 times of the KIC, whereas at the dynamic scale, the KIIIC is less than the KIC. The relationship between KIIIC and KIC is affected by the loading scale and the shape of the specimen, but the data collected thus far indicate that the origin and type of rock have minimal effect on this relationship. In addition, the fracture surface morphology characteristics were quantitatively analyzed.

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Mixed mode I/II and I/III fracture toughness investigation for preplaced aggregate concrete mixtures: Experimental study and theoretical prediction

Cited by 2 publications

References 74 publications

Comparing Different Procedures for Calculating Flexural Cracking Toughness Using Edge‐Notched Disc Bend Specimen Under Modes I and III

Comparing Different Procedures for Calculating Flexural Cracking Toughness Using Edge‐Notched Disc Bend Specimen Under Modes I and III

Differential Response of Fracture Characterization of Mode III Fracture in Sandstone Under Dynamic Versus Static Loading

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