Add to ORKGThe strength of olivine at low temperatures and high stresses in Earth’s lithospheric mantle exerts a critical control on many geodynamic processes, including lithospheric flexure and the formation of plate boundaries. Unfortunately, laboratory-derived values of the strength of olivine at lithospheric conditions are highly variable and greatly disagree with those inferred from geophysical observations. Here we demonstrate via nanoindentation that the strength of olivine depends on the length-scale of deformation, with experiments on smaller volumes of material exhibiting larger yield stresses. This “size effect” resolves discrepancies among previous measurements of olivine strength using other techniques. It also corroborates the most recen...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of olivine at low temperatures and high stresses in Earth’s lithospheric mantle exerts ...
The strength of olivine at low temperatures and high stresses in Earth’s lithospheric mantle exerts ...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
The rheological properties of olivine influence large-scale, long-term deformation processes on rock...
The rheological properties of olivine influence large-scale, long-term deformation processes on rock...
International audienceThe ductile behavior of olivine-rich rocks is critical to constrain thermal co...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of olivine at low temperatures and high stresses in Earth’s lithospheric mantle exerts ...
The strength of olivine at low temperatures and high stresses in Earth’s lithospheric mantle exerts ...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
Plastic deformation of olivine at relatively low temperatures (i.e., low‐temperature plasticity) lik...
The rheological properties of olivine influence large-scale, long-term deformation processes on rock...
The rheological properties of olivine influence large-scale, long-term deformation processes on rock...
International audienceThe ductile behavior of olivine-rich rocks is critical to constrain thermal co...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
The strength of the lithosphere is typically modelled based on constitutive equations for steady-sta...
