Claude Guillot scite author profile

We report in situ atomic force microscopy experiments which reveal the presence of nanoscale damage cavities ahead of a stress-corrosion crack tip in glass. Their presence might explain the departure from linear elasticity observed in the vicinity of a crack tip in glass. Such a ductile fracture mechanism, widely observed in the case of metallic materials at the micrometer scale, might be also at the origin of the striking similarity of the morphologies of fracture surfaces of glass and metallic alloys at different length scales.

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Scaling Exponents for Fracture Surfaces in Homogeneous Glass and Glassy Ceramics

Bonamy

et al. 2006

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We investigate the scaling properties of postmortem fracture surfaces in silica glass and glassy ceramics. In both cases, the 2D height-height correlation function is found to obey Family-Viseck scaling properties, but with two sets of critical exponents, in particular, a roughness exponent zeta approximately 0.75 in homogeneous glass and zeta approximately 0.4 in glassy ceramics. The ranges of length scales over which these two scalings are observed are shown to be below and above the size of the process zone, respectively. A model derived from linear elastic fracture mechanics in the quasistatic approximation succeeds to reproduce the scaling exponents observed in glassy ceramics. The critical exponents observed in homogeneous glass are conjectured to reflect the damage screening occurring for length scales below the size of the process zone.

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Resonant Photoemission in Nickel Metal

et al. 1977

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Anisotropic self-affine properties of experimental fracture surfaces

Ponson

Bonamy²,

Auradou

et al. 2006

Int J Fract

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Abstract. The scaling properties of post-mortem fracture surfaces of brittle (silica glass), ductile (aluminum alloy) and quasi-brittle (mortar and wood) materials have been investigated. These surfaces, studied far from the initiation, were shown to be self-affine. However, the Hurst exponent measured along the crack direction is found to be different from the one measured along the propagation direction. More generally, a complete description of the scaling properties of these surfaces call for the use of the 2D height-height correlation function that involves three exponents ζ ≃ 0.75, β ≃ 0.6 and z ≃ 1.25 independent of the material considered as well as of the crack growth velocity. These exponents are shown to correspond to the roughness, growth and dynamic exponents respectively , as introduced in interface growth models. They are conjectured to be universal.

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Ge/Ag(111) semiconductor-on-metal growth: Formation of anAg2Gesurface alloy

et al. 2000

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Surface core level spectroscopy of transition metals: A new tool for the determination of their surface structure

Spanjaard

Guillot

Desjonquères

et al. 1985

Surface Science Reports

265

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Nano-ductile crack propagation in glasses under stress corrosion: spatiotemporal evolution of damage in the vicinity of the crack tip

Prades

Bonamy

Dalmas

et al. 2005

International Journal of Solids and Structures

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Nanoscale damage during fracture in silica glass

et al. 2006

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We report here atomic force microscopy experiments designed to uncover the nature of failure mechanisms occuring within the process zone at the tip of a crack propagating into a silica glass specimen under stress corrosion. The crack propagates through the growth and coalescence of nanoscale damage spots. This cavitation process is shown to be the key mechanism responsible for damage spreading within the process zone. The possible origin of the nucleation of cavities, as well as the implications on the selection of both the cavity size at coalescence and the process zone extension are finally discussed.

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Claude Guillot

Glass Breaks like Metal, but at the Nanometer Scale

Scaling Exponents for Fracture Surfaces in Homogeneous Glass and Glassy Ceramics

Resonant Photoemission in Nickel Metal

Anisotropic self-affine properties of experimental fracture surfaces

Ge/Ag(111) semiconductor-on-metal growth: Formation of anAg2Gesurface alloy

Surface core level spectroscopy of transition metals: A new tool for the determination of their surface structure

Nano-ductile crack propagation in glasses under stress corrosion: spatiotemporal evolution of damage in the vicinity of the crack tip

Nanoscale damage during fracture in silica glass

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