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  1. Yoshida, H., Horii, H. and Kato, K.: Application of Micromechanics-Based Continuum Modeling to Rock Mass with Discontinuities, Proceedings of the International Workshop on Prediction and Simulation Methods in Geomechanics, Athens, Greece, pp.165-168, 2003

  2. Yoshida, H. and Okumura, Y.: Sensitive Analysis of Creep Behavior of Rock Mass around a High-Level Radioactive Nuclear Waste Tunnel, The proceedings of the 3rd Korea-Japan Joint Symposium on Rock Engineering and 2002 ISRM Sponsored Regional Symposium, Vol.2, pp.723-730, 2002

  3. Hibiya, K., Mori, T., Morikawa, S., Tabei, K., Goto, N., Horii, H. and Yoshida, H.: Application of MBC Analysis for Support Design of Underground Cavern, The proceedings of IS-Kyoto 2001, pp.1027-1032, 2001

  4. Yoshida, H., Horii, H. and Kaneko, T.: Analysis of Disposal Tunnel for High-Level Radioactive Waste by Micromechanics-Based Continuum Model, Rock Mechanics National Interest; The proceedings of 38th U.S. Rock Mechanics Symposium, DCROCKS 2001, pp.551-558, 2001

  5. Hibiya, K., Mori, T., Morikawa, S., Tabei, K., Goto, N., Horii, H. and Yoshida, H.: Parameter Analysis of MBC Model for Underground Cavern, Rock Mechanics - a challenge for society -; The proceedings of the ISRM Regional Symposium EUROCK 2001,pp.415-420, 2001

  6. Yoshida, H. et al: Coupling Analysis of Deformation and Flow in Jointed Rock Mass during Cavern Excavation, Proceedings of the fourth North American Rock Mechanics Symposium, Balkema, pp.1051-1058, 2000

  7. M. Boulfiza, K. Sakai and H. Yoshida: A General Framework for an Integrated Structural Durability Design Procedure, Proceedings of the RILEM/CIB/ISO International Symposium, Integrated Life-Cycle Design of Materials and Structures ILCDES, 2000

  8. Yoshida, H. and Horii, H.: New Definition of Safety Factor and a Cavern Design Method on MBC Analysis, Proceedings of The Ninth International Congress on Rock Mechanics, Balkema, Vol.1, pp.425-428, 1999

  9. Yoshida, H. et al.: Comparison of Computational Model for Jointed Rock Mass through Analysis of Large-Scale Cavern Excavation, Proceedings of The Ninth International Congress on Rock Mechanics, Balkema, Vol.1, pp.389-393, 1999

  10. Yoshida, H. and Horii, H.: Micromechanics-based continuum analysis for the excavation of large-scale underground cavern, Proceeding of SPE/ISRM Rock Mechanics in Petroleum Engineering, Vol.1, pp.209-218, 1998

  11. Yoshida, H. and Horii, H.: Excavation Analysis of a Large-Scale Power Station Cavern by Micromechanics-Based Continuum Model for Jointed Rock Mass, A.A.BALKEMA, Environmental and Safety Concerns in Underground Construction Vol.1, pp.311-316, 1997

  12. Yoshida, H., Horii. H., Uno, H.: Micromechanics-Based Continuum Theory for Jointed Rock Mass and Analysis of Large-Scale Cavern Excavation, The proceedings of the Eighth International Congress on Rock Mechanics, Vol.2, pp.689-692, 1995

  13. Horii, H. and Yoshida, H: Constitutive Modeling of Rock Masses Containing & Fracturing Joints and Analysis of Large-scale Excavation, Rock Mechanics Models and Measurements Challenges from Industry, A.A.BALKEMA, pp.681-688, 1994

  14. Yoshida, H. and Horii. H.: A Constitutive Equation and FEM Analysis of Rock Masses Containing Fracturing Joints, Computer Methods and Advances in Geomechanics, A.A.BALKEMA, Vol.3, pp.1717-1722, 1994

  15. Yoshida, H. and Horii, H: A Micromechanics-based Continuum Theory for Rock Masses Containing Fracturing Joints, Fracture of Brittle, Disordered Materials, E&FN SPON, pp.569-573, 1993