You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
426<br />
L. J<strong>in</strong>g, J.A. Hudson / International Journal of Rock Mechanics & M<strong>in</strong><strong>in</strong>g Sciences 39 (2002) 409–427<br />
simulator. Int J Rock Mech M<strong>in</strong> Sci Geomech Abstr 1992;29(4):<br />
401–9 *.<br />
[281] Noorishad J, Tsang CF. Coupled thermo-hydroelasticity phenomena<br />
<strong>in</strong> variably saturated fractured porous <strong>rock</strong>s—formulation<br />
and numerical solution. In: Stephansson, J<strong>in</strong>g, Tsang,<br />
editors. Coupled thermo-hydro-mechanical processes of fractured<br />
media. Rotterdam: Elsevier, 1996. p. 93–134*.<br />
[282] Rutqvist J, B.orgesson L, Chijimatsu M, Kobayashi A, J<strong>in</strong>g L,<br />
Nguyen TS, Noorishad J, Tsang CF. Thermo-hydro-<strong>mechanics</strong><br />
of partially saturated geological media: govern<strong>in</strong>g equations and<br />
formulation of four f<strong>in</strong>ite element models. Int J Rock Mech M<strong>in</strong><br />
Sci 2001;38(1;):105–27 *.<br />
[283] Rutqvist J, B.orgsson L, Chijimatsu M, Nguyen TS, J<strong>in</strong>g L,<br />
Noorishad J, Tsang CF. Coupled thermo-hydro-mechanical<br />
analysis of a heater test <strong>in</strong> fractured <strong>rock</strong> and bentonite at<br />
Kamaishi M<strong>in</strong>e—comparison of field results to predictions of<br />
four f<strong>in</strong>ite element codes. Int J Rock Mech M<strong>in</strong> Sci<br />
2001;38(1):129–42.<br />
[284] B.orgesson L, Chijimatsu M, Fujita T, Nguyen TS, Rutqvist J,<br />
J<strong>in</strong>g L. Thermo-hydro-mechanical characterization of a bentonite-based<br />
buffer material by laboratory tests and numerical<br />
back analysis. Int J Rock Mech M<strong>in</strong> Sci 2001;38(1):95–104.<br />
[285] Nguyen TS, B.orgesson L, Chijimatsu M, Rutqvist J, Fujita T,<br />
Hernel<strong>in</strong>d J, Kobayashi A, Ohnishi Y, Tanaka M, J<strong>in</strong>g L.<br />
Hydro-mechanical response of a fractured granite <strong>rock</strong> mass to<br />
excavation of a test pit—the Kamaishi M<strong>in</strong>e experiments <strong>in</strong><br />
Japan. Int J Rock Mech M<strong>in</strong> Sci 2001;38(1):79–94 *.<br />
[286] Millard A. Short description of CASTEM 2000 and TRIO-EF.<br />
In: Stephansson, J<strong>in</strong>g, Tsang, editors. Coupled thermo-hydromechanical<br />
processes of fractured media. Rotterdam: Elsevier,<br />
1996. p. 559–64.<br />
[287] Ohnishi Y, Kobayashi A. THAMES. In: Stephansson, J<strong>in</strong>g,<br />
Tsang, editors. Coupled thermo-hydro-mechanical processes of<br />
fractured media. Rotterdam: Elsevier, 1996. p. 545–9.<br />
[288] Abdaliah G, Thoraval A, Sfeir A, Piguet JP. Thermal convection<br />
of fluid <strong>in</strong> fractured media. Int J Rock Mech M<strong>in</strong> Sci Geomech<br />
Abstr 1995;32(5):481–90 *.<br />
[289] Lewis RW, Schrefler BA. The f<strong>in</strong>ite element method <strong>in</strong> the static<br />
and dynamic deformation and consolidation of porous media.<br />
Chechester: Wiley, 1998 **.<br />
[290] Schrefler BA. Computer modell<strong>in</strong>g <strong>in</strong> environmental geo<strong>mechanics</strong>.<br />
Comput Struct 2001;79:2209–23 **.<br />
[291] J<strong>in</strong>g L, Stephansson O, Tsang CF, Kautsky F. DECOVALEX—<br />
mathematical models of coupled T-H-M processes for nuclear<br />
waste repositories. Executive summary for Phases I, II and III.<br />
SKI Report 96:58. Swedish Nuclear Power Inspectorate, Stockholm,<br />
Sweden, 1996*.<br />
[292] J<strong>in</strong>g L, Stephansson O, Tsang CF, Knight LJ, Kautsky F.<br />
DECOVALEX II project, executive summary. SKI Report<br />
99:24. Swedish Nuclear Power Inspectorate, Stockholm, Sweden,<br />
1999.<br />
[293] Stephansson O, J<strong>in</strong>g L, Tsang CF, editors. Coupled thermohydro-mechanical<br />
processes of fractured media. Rotterdam:<br />
Elsevier, 1996**.<br />
[294] Stephansson O, editor. Special issue for thermo-hydro-mechanical<br />
coupl<strong>in</strong>g <strong>in</strong> <strong>rock</strong> <strong>mechanics</strong>. Int J Rock Mech M<strong>in</strong> Sci<br />
Geomech Abstr 1995;32(5)*.<br />
[295] Stephansson O, editor. Special issue for thermo-hydro-mechanical<br />
coupl<strong>in</strong>g <strong>in</strong> <strong>rock</strong> <strong>mechanics</strong>. Int J Rock Mech M<strong>in</strong> Sci<br />
Geomech Abstr 2001;38(1)*.<br />
[296] Zhao C, Hobbs BE, Baxter K, M.uhlhaus HB, Ord A. A<br />
numerical study of pore-fluid, thermal and mass flow <strong>in</strong><br />
fluid-saturated porous <strong>rock</strong> bas<strong>in</strong>s. Eng Comput<br />
1999;16(2):202–14 *.<br />
[297] Yang XS. A unified approach to mechanical compaction,<br />
pressure solution, m<strong>in</strong>eral reactions and the temperature<br />
distribution <strong>in</strong> hydrocarbon bas<strong>in</strong>s. Tectonophysics 2001;330:<br />
141–51.<br />
[298] Sasaki T, Morikawa S. Thermo-mechanical consolidation<br />
coupl<strong>in</strong>g analysis on jo<strong>in</strong>ted <strong>rock</strong> mass by the f<strong>in</strong>ite element<br />
method. Eng Comput 1996;13(7):70–86 *.<br />
[299] Gaw<strong>in</strong> D, Schrefler BA. Thermo-hydro-mechanical analysis of<br />
partially saturated materials. Eng Comput 1996;13(7):113–43 *.<br />
[300] Wang X, Schrefler BA. A multi-frontal parallel algorithm for<br />
coupled thermo-hydro-mechanical analysis of deformable porous<br />
media. Int J Numer Methods Eng 1998;43:1069–83.<br />
[301] Cervera M, Cod<strong>in</strong>a R, Gal<strong>in</strong>do M. On the computational<br />
efficiency and implementation of block-iterative algorithms for<br />
non-l<strong>in</strong>ear coupled problems. Eng Comput 1996;13(6):4–30.<br />
[302] Thomas HR, Yang HT, He Y. A sub-structure based parallel<br />
solution of coupled thermo-hydro-mechanical model<strong>in</strong>g of<br />
unsaturated soil. Eng Comput 1999;16(4):428–42.<br />
[303] Thomas HR, Missoum H. Three-dimensional coupled heat,<br />
moisture and air transfer <strong>in</strong>a deformable unsaturated soil. Int J<br />
Numer Methods Eng 1999;44:919–43 *.<br />
[304] Thomas HR, Cleall PJ. Inclusion of expansive clay behaviour <strong>in</strong><br />
coupled thermo hydraulic mechanical models. Eng Geol<br />
1999;54:93–108 *.<br />
[305] Selvadurai APS, Nguyen TS. Mechanics and fluid transport <strong>in</strong> a<br />
degradable discont<strong>in</strong>uity. Eng Geol 1999;53:243–9 *.<br />
[306] Selvadurai APS, Nguyen TS. Scop<strong>in</strong>g analyses of the coupled<br />
thermal-hydrological- mechanical behaviour of the <strong>rock</strong> mass<br />
around a nuclear fuel waste repository. Eng Geol 1996;47:<br />
379–400.<br />
[307] Hudson JA, Stephansson O, Andersson J, J<strong>in</strong>g L. Coupled T-H-<br />
M issues relat<strong>in</strong>g to radioactive waste repository design and<br />
performance. Int J Rock Mech M<strong>in</strong> Sci 2001;38(1):143–61.<br />
[308] Nithiarasu P, Sujatha KS, Rav<strong>in</strong>dran K, Sundararajan T,<br />
Seetharamu KN. Non-Darcy natural convection <strong>in</strong> a hydrodynamically<br />
and thermally anisotropic porous medium. Comput<br />
Methods Appl Mech Eng 2000;188:413–30.<br />
[309] Masters I, Pao WKS, Lewis RW. Coupl<strong>in</strong>g temperature to a<br />
double-porosity model of deformable porous media. Int J<br />
Numer Anal Methods Geomech 2000;49:421–38 *.<br />
[310] Zimmerman RW. Coupl<strong>in</strong>g <strong>in</strong> poroelasticity and thermoelasticity.<br />
Int J Rock Mech M<strong>in</strong> Sci 2000;37(1):79–87 *.<br />
[311] Lai YM, Wu ZW, Zhu YL, Zhu LN. Nonl<strong>in</strong>ear analysis for the<br />
coupled problem of temperature, seepage and stress fields <strong>in</strong><br />
cold-region tunnels. Tunnel<strong>in</strong>g Underground Space Technol<br />
1998;13(4):435–40 *.<br />
[312] Sakurai S. Direct stra<strong>in</strong> evaluation technique <strong>in</strong> construction of<br />
underground open<strong>in</strong>gs. Proceed<strong>in</strong>gs of the 22nd US Symposium<br />
on Rock Mechanics. Cambridge, MA: MIT Press, 1981.<br />
p. 278–82**.<br />
[313] Sakurai S, Akutagawa S. Some aspects of back analysis <strong>in</strong><br />
geotechnical eng<strong>in</strong>eer<strong>in</strong>g. EUROC’93, Lisbon, Portugal. Rotterdam:<br />
Balkema, 1995. p. 1130–40*.<br />
[314] Ledesma A, Gens A, Alonso EE. Estimation of parameters <strong>in</strong><br />
geotechnical back analysis—I. Maximum likelihood approach.<br />
Comput Geoetch 1996;18(1):1–27.<br />
[315] Gens A, Ledesma A, Alonso EE. Estimation of parameters <strong>in</strong><br />
geotechnical back analysis. II—application to a tunnel problem.<br />
Comput Geotech 1996;18(1):29–46.<br />
[316] Ledesma A, Gens A, Alonso EE. Parameter and variance<br />
estimation <strong>in</strong> geotechnical back-analysis us<strong>in</strong>g prior <strong>in</strong>formation.<br />
Int J Numer Anal Methods Geomech 1996;20(2):119–41.<br />
[317] Mello Franco JA, Assis AP, Mansur WJ, Telles JCF, Santiago<br />
AF. Design aspects of the underground structures of the Serra da<br />
Mesa hydroelectric power plant. Int J Rock Mech M<strong>in</strong> Sci<br />
1997;34(3/4):580, paper no. 16.<br />
[318] Hojo A, Nakamura M, Sakurai S, Akutagawa S. Back analysis<br />
of non-elastic stra<strong>in</strong>s with<strong>in</strong> a discont<strong>in</strong>uous <strong>rock</strong> mass around a