Full-field measurement and fracture characterisations of rocks under dynamic loads using high-speed three-dimensional digital image correlation

•Full-field strain and strain-rate fields of rock was obtained by high-speed 3D-DIC.•The 256 × 256 pixels and 200,000 fps are suggested in dynamic measurement of rock.•Wave propagation, dispersion and radial inertial effect on the specimen were found.•The comparison was conducted between 2D- and 3D-...

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Bibliographic Details
Published inInternational journal of impact engineering Vol. 113; pp. 61 - 72
Main Authors Xing, H.Z., Zhang, Q.B., Ruan, D., Dehkhoda, S., Lu, G.X., Zhao, J.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.03.2018
Elsevier BV
Subjects
3D-DIC
Crack initiation
Deformation
Digital imaging
Dynamic loads
Dynamic tests
Frames per second
Full-field deformation
High speed cameras
High-speed camera
Image compression
Propagation
Sandstone
Split Hopkinson bar
Split Hopkinson pressure bars
Strain gauges
Strain localization
Strain measurement
Strain rate
Wave dispersion
Wave propagation
3D-DIC
Dynamic tests
Full-field deformation
Split Hopkinson bar
High-speed camera
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Summary:•Full-field strain and strain-rate fields of rock was obtained by high-speed 3D-DIC.•The 256 × 256 pixels and 200,000 fps are suggested in dynamic measurement of rock.•Wave propagation, dispersion and radial inertial effect on the specimen were found.•The comparison was conducted between 2D- and 3D-DIC in strain measurement.•The failure of sandstone is a shear mode in the test of split Hopkinson pressure bar. Full-field strain and strain-rate fields of rock materials under dynamic compression were studied by the high-speed three-dimensional digital image correlation (3D-DIC) method. A series of dynamic tests was conducted on Hawkesbury sandstones using a split Hopkinson pressure bar (SHPB) at three different strain rates. The real-time images of the loaded specimen were captured by two high-speed cameras at a frame rate of 200,000 frames per second (fps) with a resolution of 256 × 256 pixels. Wave propagation, dispersion and radial inertial effect on the specimen were found by DIC results. The strain rate vibration pattern on the specimen, which was visualised by DIC, found to be dependent on the input waveform. A recovery of strain in the post-peak stage was detected on the specimen by DIC, which is unrevealed in the traditional one-dimensional theory method (i.e., strain gauge signals). The results showed that strain localisation initiated from the interface of the bar and specimen with the order of tensile, shear and vertical. The initiation of crack from strain localisation is found rate-independent. Comparison between 2D- and 3D-DIC in strain measurement of the same experiment showed that the error in the strain obtained by 2D-DIC could be up to 32%.
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ISSN:0734-743X
1879-3509
DOI:10.1016/j.ijimpeng.2017.11.011