Ductile Deformation Processes
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Ductile Deformation Processes Chapter 9 in Van der Pluijm and Marshak
description
Ductile Deformation Processes. Chapter 9 in Van der Pluijm and Marshak. How can solid rock flow like taffy?. Swiss Alps. Ice is a solid phase that flows when conditions are appropriate and there are forces acting on the material. “g”. Ductile deformation is permanent. - PowerPoint PPT Presentation
Transcript of Ductile Deformation Processes
Ductile Deformation Processes
Chapter 9 in
Van der Pluijm and Marshak
How can solid rock flow like taffy?
Swiss Alps
Ice is a solidphase thatflowswhen conditionsare appropriateand there are forcesacting on the material.
“g”
Ductile deformation is permanent
Accomplished by these 3 mechanisms:
• Cataclastic flow
• Diffusional mass transfer
• Crystal plasticity
Mechanism is determined by:
• Temperature
• Stress
• Strain rate
• Grain size
• Composition
• Fluid content
Effect of Composition
Slow
Halite G
ypsum
Calcite
Quartz
Plag.
Pyroxene
Olivine
1) Cataclastic flow: small pieces sliding past each other
Cataclastic flow: Is it brittle or ductile?
Ductile on large scale but brittle on small scale
2) Crystal Plasticity: The crystal changes shape by movement of lattice defects
Point Defects are vacancies or impurities
Dislocations form in 2 ways:
• During crystal growth• During deformation
By moving the dislocations, the crystal changes shape
Migrating defects
change the lattice shape.
Occurs under stress
Line defects in olivine
Twinning also changes the crystal shape
3) Diffusional Mass Transfer has three mechanisms:
• Grain boundary diffusion• Volume diffusion
• Pressure solution Low T
High T
Grain boundary diffusion
Atoms will diffuse along the edges of the grainto create shape changes (strain).
Volume diffusion
Atoms will diffuse through the center of the grainto create shape changes (strain).
Pressure solution:Material is dissolved under
stress
Dissolved rock goes into veins
Deformed Marble
Mylonite
