F. Augereau scite author profile

International audienceAlthough the characteristic time constant for viscous relaxation of glass is so large at room temperature that viscous flow would be hardly detectable, a permanent deformation can be easily achieved at ambient temperature by applying a sharp contact loading-a Vickers indenter for instance-for few seconds only. We provide direct evidence for densification and volume conservative shear flow by means of atomic force microscopy topological analysis of the indentation profile and volume on as-quenched and densified specimens (pressure up to 25 GPa). We show that both possible mechanisms contribute to different extents depending on the glass composition. A major finding is that densification predominates in glasses with relatively low atomic packing density but that shear flow relays on once densification is achieved. (c) 2010 American Institute of Physics. [doi:10.1063/1.3407559

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Mechanical characterization of a polysiloxane-derived SiOC glass

Moysan

Riedel

Harshe

et al. 2007

Journal of the European Ceramic Society

123

108

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Study of gel development during SON68 glass alteration using atomic force microscopy. Comparison with two simplified glasses

Donzel

Gin

Augereau

et al. 2003

Journal of Nuclear Materials

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Ultrasonic measurement of anisotropy and temperature dependence of elastic parameters by a dry coupling method applied to a 6061-T6 alloy

et al. 2007

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F. Augereau

Indentation deformation mechanism in glass: Densification versus shear flow

Mechanical characterization of a polysiloxane-derived SiOC glass

Study of gel development during SON68 glass alteration using atomic force microscopy. Comparison with two simplified glasses

Ultrasonic measurement of anisotropy and temperature dependence of elastic parameters by a dry coupling method applied to a 6061-T6 alloy

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