Hydro-Mechanical Properties of an Unsaturated Frictional Material
Hydro-Mechanical Properties of an Unsaturated Frictional Material
Hydro-Mechanical Properties of an Unsaturated Frictional Material
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
BIBLIOGRAPHY 249<br />
Eching, S. O., Hopm<strong>an</strong>s, J. W. & Wendroth, O. (1994), ‘<strong>Unsaturated</strong> hydraulic conductivity<br />
from tr<strong>an</strong>sient multistep <strong>an</strong>d soil water pressure data’, Soil Science Society <strong>of</strong> America<br />
Journal 58, 687–695.<br />
Edlefsen, N. E. & Anderson, A. B. C. (1943), ‘Thermodynamics <strong>of</strong> soil moisture’, Hilgardia<br />
15, 31–298.<br />
Elrick, D., Reynolds, W., Baumgartner, N., T<strong>an</strong>, A. & Bradshaw, K. (1987), In situ measure-<br />
ments <strong>of</strong> hydraulic properties <strong>of</strong> soils using guelph permeameter <strong>an</strong>d guelph infiltrometer,<br />
in ‘Proceedings, 3rd International Workshop on L<strong>an</strong>d Drainage’, Dept. <strong>of</strong> Agric. Eng., Ohio<br />
State Univ., Columbus, OH.<br />
Enderby, J. A. (1955), ‘The domain model <strong>of</strong> hysteresis: 1 independent domains’, Tr<strong>an</strong>saction<br />
<strong>of</strong> Faraday Society 51, 835–848.<br />
Escario, V. & Juca, J. (1989), Strength <strong>an</strong>d deformation <strong>of</strong> partly saturated soils, in ‘12th<br />
International Conference on Soil Mech<strong>an</strong>cis <strong>an</strong>d Foundation Engineering’, Rio de J<strong>an</strong>eiro,<br />
Vol.3, pp. 43–46.<br />
Escario, V. & Saez, J. (1973), Measurement <strong>of</strong> the properties <strong>of</strong> swelling <strong>an</strong>d collapsing<br />
soils under controlled suction, in ‘3rd International Conference on Exp<strong>an</strong>sive Soils’, Haifa,<br />
pp. 195–200.<br />
Everett, D. H. (1955), ‘A general approach to hysteresis: 4. An alternative formulation <strong>of</strong> the<br />
domain model’, Tr<strong>an</strong>saction <strong>of</strong> Faraday Society 51, 1551–1557.<br />
Everett, D. H. (1967), ‘Adsorption hysteresis’, The Solid Gas Interface 2, 1055–1113.<br />
Everett, D. H. & Smith, F. W. (1954), ‘A general approach to hysteresis: 2. Development <strong>of</strong><br />
the domain theory’, Tr<strong>an</strong>saction <strong>of</strong> Faraday Society 50, 187–197.<br />
Everett, D. H. & Whitton, W. I. (1952), ‘A general approach to hysteresis: 1’, Tr<strong>an</strong>saction<br />
<strong>of</strong> Faraday Society 48, 749–752.<br />
Farrell, D. A. & Larson, W. E. (1972), ‘Modeling the pore structure <strong>of</strong> porous media’, Water<br />
Resources Research 8(3), 699–706.<br />
Fawcett, R. G. & Collis-George, N. (1967), ‘A filter-paper method for determining the mois-<br />
ture characteristics <strong>of</strong> soil’, Australi<strong>an</strong> Journal <strong>of</strong> Experimental Agriculture <strong>an</strong>d Animal<br />
Husb<strong>an</strong>dry 7, 162–167.<br />
Feng, M. & Fredlund, D. G. (1999), Hysteresis influence associated with thermal conductivity<br />
sensor measurements, in ‘Theory to the Practice <strong>of</strong> <strong>Unsaturated</strong> Soil Mech<strong>an</strong>ics in Associ-<br />
ation with the 52nd C<strong>an</strong>adi<strong>an</strong> Geotechnical Conference <strong>an</strong>d the <strong>Unsaturated</strong> Soil Group’,<br />
Regina, Sask., pp. 14:2:14–14:2:20.