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ROCK MECHANICS • The study of rock behavior in the solid state under varying environmental and internal conditions • Main focus is how rocks respond to applied stresses, especially those that naturally occur due to: – – – – Gravity Mantle Convection Plate Tectonics Diapiric Movements: magma, salt diapirs Stress • Same as Pressure • = Force/Area • Units in Earth Sciences are MPa = 106 Pa = 10 bars =10 atm = 147 psi STRAIN • • • • Response to or result of applied stress Linear strain is defined as (L1 – L0)/L0 Units are ???? (unitless) Volumetric strain = (V1-V0)/V0 • Units are ????? • Areal Strain = (A1-A0)/A0 • Strain is usually expressed as a percent change ENVIRONMENTAL CONDITIONS affecting rock behavior Stress Factors: – Applied Stress – Stress History • Duration • How stress applied over time – Temperature – Pore Fluids and Pressure Lithospheric Pressure • Aka Confining Pressure • The vertical component can be calculated as Pc = rgz, • Where r = average density in g/cc, • g= grav. constant, • z = depth • In the Lithosphere Pc increases at about 25-30 MPa/km • In general Pc increases at r*10 MPa/km Pressure vs. Depth in Earth Geothermal Gradient • T increases in the Lithosphere at 250C/km • T continues to increase all the way to the core, but at a lower rate • The melting T of Quartz is • The melting T of Feldspar • The melting T of calcite is 573-870 >1100 910 0C Temperature vs. Depth in the Earth Horizontal Stresses in the Earth do not equal vertical load, rgz, but are about 0.25-0.5 of sv depending on composition, porosity, pore fluids INTERNAL CONDITIONS affecting rock behavior • Composition (silicates and oxides most resistant to strain) • Texture/Fabric (phaneritic most resistant) • Pores, cracks, flaws • Previous stresses stored in grains • Degree of Weathering (minerals that weather from oxides and silicates to other compounds are weakened) • Presence of fluids in pores or cracks Rock Texture/Fabric • • • • • Grain size Interlocking or grains in cement? Sorting Foliation/ non-foliated Sedimentary layering Textures Note: Most Strain is not due to breaking bonds, but is due to slip of grains against each other, or between grains and cement Porosity vs. Depth Rigid and Brittle Behaviors • Rigid: • No strain, no response • Most rocks show rigid behavior at room T and no Pc, and at stresses below Pa – Brittle: • No strain before failure • In ideal brittle behavior, if stress is removed before rock fails, there will be no internal signs of strain
