Investigation of singularities of glass strain under intense compression waves

Kanel, G. I.; Молодец, А. М.; Dremin, A. N.

doi:10.1007/bf00740474

Cited by 48 publications

(22 citation statements)

References 6 publications

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“…A stir was caused in the Shock Physics community when some Russian researchers showed that failure in shocked glass propagates behind a compressive shock [195,196]. This was detected as a smaller reload signal in the shock wave (recorded using VISAR) than would be expected if spall had taken place in previously undamaged material.…”

Section: Article In Pressmentioning

confidence: 95%

Review of experimental techniques for high rate deformation and shock studies

Field¹,

Walley²,

Proud³

et al. 2004

International Journal of Impact Engineering

661

296

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Section: Article In Pressmentioning

confidence: 95%

Review of experimental techniques for high rate deformation and shock studies

Field¹,

Walley²,

Proud³

et al. 2004

International Journal of Impact Engineering

661

296

View full text Add to dashboard Cite

“…Through the use of piezoelectric or piezoresistive foil stress gauges placed transversely to the loading direction, the lateral stress of a shocked material can be measured directly [23,24]. Shear stress is then determined by comparison with the longitudinal stress from another stress gauge.…”

Section: Lateral Stress Gaugesmentioning

confidence: 99%

Strength behavior of materials at high pressures

Vogler

Chhabildas

2006

International Journal of Impact Engineering

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“…[1][2][3][4][5][6][7][8][9][10][11] Various workers have investigated planar loading ͑plate-impact͒ geometries in particular. The materials investigated have varied from the more open-structure materials such as fused silica and borosilicate, to partially filled soda-lime glass and to highly filled lead glasses.…”

Section: Introductionmentioning

confidence: 99%

On the origin of failure waves in glass

Bourne

Millett

Rosenberg

1997

Journal of Applied Physics

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Articles you may be interested inAcoustic emission analysis on tensile failure of steam-side oxide scales formed on T22 alloy superheater tubesThe compressive failure of soda-lime glass under uniaxial shock loading has been the subject of much recent discussion. Evidence of failure occurring behind a traveling boundary that follows a shock front has been accumulated and verified in several laboratories. Such a boundary has been called a failure wave. The variations in material properties across this front include complete loss of tensile strength, reduction in shear strength, lowered acoustic impedance and sound speed, and opacity to light. It in many ways resembles a phase boundary. While these observations are generally held to be true, there is no universally agreed mechanism for the process or processes that gives rise to the failure. It is the object of this work to present the results of plate impact experiments that aim to identify the mechanism by which the failure wave propagates. The experiments indicate that the failure is nucleated by the shock wave at surfaces, and that deliberately introducing flaws by roughening the surface speeds the fracture of the material leading to a failure wave close to the shock front.

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Investigation of singularities of glass strain under intense compression waves

Cited by 48 publications

References 6 publications

Review of experimental techniques for high rate deformation and shock studies

Review of experimental techniques for high rate deformation and shock studies

Strength behavior of materials at high pressures

On the origin of failure waves in glass

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