The loading and shearing of a clay or soil where the pore fluids are confined. Thus, during undrained shearing of a clay, the pore fluid pressure may change, but the total clay volume does not change.
The loading and shearing of a clay or soil where the pore fluids are confined. Thus, during undrained shearing of a clay, the pore fluid pressure may change, but the total clay volume does not change.
The peak shear resistance or shear stress of a clay or soil that experiences no loss in pore water when subject to loading or unloading. When the applied stress exceeds the undrained shear strength, the clay or soil fails without drainage or exchange of pore water with materials outside the clay/soil mass.
An obsolete term for nontronite or a mixture of nontronite and silica (opal-C?).
A poorly defined material, possibly biotite.
A unit cell is the smallest repeating parallelipiped (= reduced cell) that contains the atomic structure of a crystal. The unit cell contains a crystals full symmetry and chemical composition and is chosen with cell edges (a, b, c) coinciding with any symmetry axes present. The unit cell is determined by X-ray diffraction, usually from a single crystal.
Cf., cell parameters, unit structure, X-ray diffraction.
For phyllosilicates, the unit structure is the total assembly of the layer and any interlayer material. After Guggenheim et al. (2006) and references therein.
Cf., layer, interlayer material
In soil science, for saturated soils or soils beneath the groundwater table,the effective unit weight is the difference between the total unit weight of the soil mass and the unit weight of water. Thus, the effective unit weight removes the effect of the pore water within the soil mass. One difficulty in its measurement is the determination of loosely held H2O between clay layers vs H2O between grains (i.e., pores).
Syn., buoyant unit weight, submerged unit weight.
A poorly defined material, possibly vermiculite.
An obsolete varietal term for clintonite.
Van der Waals forces are residual forces between atomic groups or molecules and are comprised of primarily dispersion and dipole-dipole forces. Dispersion forces, or London forces, involve the temporary formation of polarity where one side of an atom (or molecule) may have more electrons at a given moment than the opposing side. Thus, one side is slightly more negative than the other slightly more positive side (by having a deficiency in electrons). Neighboring atoms have similar polarity, and a weak bond is formed where opposite charges between atoms attract each other.