Surface spalling experiments with damage observations

C. S. Kao; J. F. Labuz; N. F. Ince; M. Kaveh; L. Biolzi

Surface spalling experiments with damage observations

C. S. Kao, J. F. Labuz, N. F. Ince, M. Kaveh, L. Biolzi

Research output: Contribution to conference › Paper › peer-review

Abstract

A surface instability apparatus was used to produce spalling in a laboratory setting, and damage in the rock was monitored by acoustic emission (AE) and digital image correlation (DIC) techniques. Lateral displacement served as the feedback signal to control the post-peak response with a closed-loop, servo-hydraulic load frame. A clustering analysis using the concept of a hierarchical dendrogram applied to low signal to noise ratio events provided "super AE" locations that matched the crack trajectories. DIC was used to investigate incremental displacement fields during surface spalling. Real-time images were successfully captured under high stress levels through modification of the device. Displacement fields were computed in the early stage of loading and around peak stress. Young's modulus was reasonably estimated with the axial strain measured by DIC. Fracture from spalling phenomena was revealed by contours of incremental horizontal displacement around peak stress. A concentration of deformation leading to fracture was identified, as was a region of relaxation behind the damage zone.

Original language	English (US)
State	Published - 2011
Event	45th US Rock Mechanics / Geomechanics Symposium - San Francisco, CA, United States Duration: Jun 26 2011 → Jun 29 2011

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Other	45th US Rock Mechanics / Geomechanics Symposium
Country/Territory	United States
City	San Francisco, CA
Period	6/26/11 → 6/29/11

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title = "Surface spalling experiments with damage observations",

abstract = "A surface instability apparatus was used to produce spalling in a laboratory setting, and damage in the rock was monitored by acoustic emission (AE) and digital image correlation (DIC) techniques. Lateral displacement served as the feedback signal to control the post-peak response with a closed-loop, servo-hydraulic load frame. A clustering analysis using the concept of a hierarchical dendrogram applied to low signal to noise ratio events provided {"}super AE{"} locations that matched the crack trajectories. DIC was used to investigate incremental displacement fields during surface spalling. Real-time images were successfully captured under high stress levels through modification of the device. Displacement fields were computed in the early stage of loading and around peak stress. Young's modulus was reasonably estimated with the axial strain measured by DIC. Fracture from spalling phenomena was revealed by contours of incremental horizontal displacement around peak stress. A concentration of deformation leading to fracture was identified, as was a region of relaxation behind the damage zone.",

author = "Kao, {C. S.} and Labuz, {J. F.} and Ince, {N. F.} and M. Kaveh and L. Biolzi",

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language = "English (US)",

note = "45th US Rock Mechanics / Geomechanics Symposium ; Conference date: 26-06-2011 Through 29-06-2011",

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T1 - Surface spalling experiments with damage observations

AU - Kao, C. S.

AU - Labuz, J. F.

AU - Ince, N. F.

AU - Kaveh, M.

AU - Biolzi, L.

PY - 2011

Y1 - 2011

N2 - A surface instability apparatus was used to produce spalling in a laboratory setting, and damage in the rock was monitored by acoustic emission (AE) and digital image correlation (DIC) techniques. Lateral displacement served as the feedback signal to control the post-peak response with a closed-loop, servo-hydraulic load frame. A clustering analysis using the concept of a hierarchical dendrogram applied to low signal to noise ratio events provided "super AE" locations that matched the crack trajectories. DIC was used to investigate incremental displacement fields during surface spalling. Real-time images were successfully captured under high stress levels through modification of the device. Displacement fields were computed in the early stage of loading and around peak stress. Young's modulus was reasonably estimated with the axial strain measured by DIC. Fracture from spalling phenomena was revealed by contours of incremental horizontal displacement around peak stress. A concentration of deformation leading to fracture was identified, as was a region of relaxation behind the damage zone.

AB - A surface instability apparatus was used to produce spalling in a laboratory setting, and damage in the rock was monitored by acoustic emission (AE) and digital image correlation (DIC) techniques. Lateral displacement served as the feedback signal to control the post-peak response with a closed-loop, servo-hydraulic load frame. A clustering analysis using the concept of a hierarchical dendrogram applied to low signal to noise ratio events provided "super AE" locations that matched the crack trajectories. DIC was used to investigate incremental displacement fields during surface spalling. Real-time images were successfully captured under high stress levels through modification of the device. Displacement fields were computed in the early stage of loading and around peak stress. Young's modulus was reasonably estimated with the axial strain measured by DIC. Fracture from spalling phenomena was revealed by contours of incremental horizontal displacement around peak stress. A concentration of deformation leading to fracture was identified, as was a region of relaxation behind the damage zone.

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T2 - 45th US Rock Mechanics / Geomechanics Symposium

Y2 - 26 June 2011 through 29 June 2011

ER -

Surface spalling experiments with damage observations

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