33.

“On the Prediction of the Peak and Post-Peak Behavior of Concrete Structures,” (N. Bicanic, S. Sture, B. Hurlbut and S. Day), in Computer-Aided Analysis and Design of Concrete Structures, Pineridge Press, Swansea, 1984, Part I, pp. 245-259.

34.

“Continuous Fracture Computations and Strain Localization in Cementitious Solids Subjected to Tension and Shear,” (S. Sture, K.J. Willam, and N. Bicanic), Proc. XVIth Int. Congress of Theoretical and Appl. Mech., Tech. Univ. Denmark. Lyngby, Denmark, N. 596, Aug., 1984.

35.

“Development and Application of a Directional Shear Cell,” (S. Sture, H.-Y. Ko, J.S. Budiman, and A.K. Ontuna), Proc. XI Int. Conf. Soil Mechanics and Fnd. Eng., San Francisco, California, Aug. 11-15, 1985, A.A. Balkema, Vol. 2, pp. 1061-1064.

36.

“Constitutive and Computational Aspects of Strain-Softening and Localization in Solids,” (K.J. Willam, S. Sture and N. Bicanic), in Constitutive Equations, American Society of Mechanical Engineers, ASME-WAM ’84 Symposium, Volume G00274, 1984, pp. 233-252.

37.

“On Numerical Prediction of Concrete Fracture Localization,” (N. Bicanic, E. Pramono, S. Sture, and K.J. Willam), Proceedings, NUMETA ’85 Conference, ” Swansea, U.K., A.A. Balkema publishers, The Netherlands, 1985, Vol. I, pp. 385-391.

38.

“Cyclic Multiaxial Cubical Cell Experiments on Norton Sound Silt,” (S.A. Ketcham, S. Sture, and H.-Y. Ko), Proc. ASCE Arctic ’85 Natl. Conf. Civil Eng. in the Arctic Offshore,”, F. Lawrence Bennett, et al. eds., March 1985, San Francisco, California, 1985, pp. 851-859.

39.

“Sand Deformation Tests with Rotating Principal Stress Directions,” (J.C. Mould, S. Sture and H.-Y. Ko), Proc. 5th Int. Conference on Num. Meth. in Geomechanics (ICONMIG), Nagoya, Japan, April 1985, Vol. I, pp. 531-538.

40.

“A Composite Fracture Model for Localized Failure in Cementitious Materials,” (K.J. Willam and S. Sture), Proc. 2nd Symposium on the Interaction of Non-Nuclear Munitions with Structures, Panama City, Florida, April, 1985, pp. 272-277.

41.

“A Direct Tension Loading Apparatus-Combined Cubical Test Cell for Testing Rocks and Concrete,” (R.W. Meier, H.-Y. Ko, and S. Sture), ASTM, Geotech Testing J., June 1985, Vol. 8, No. 2, pp. 71-78.

42.

“Mechanics of Granular Materials (MGM),” (S. Sture and N.C. Costes), Physics and Chemistry Experiments in Space Letters, Universities Space Research Association (USRA), Vol. 3, No. 3, 1984, pp. 3-4.

43.

“Centrifuge Modeling of Buried Structures,” (H.-Y. Ko, C.-K. Ni and S. Sture), Proc. 2nd Symposium Interaction of Non-Nuclear Munitions with Structures, U.S. Air Force Office of Scientific Research, Panama City, Florida, April, 1985, pp. 436-440.

44.

“Experimental, Constitutive, and Computational Aspects of Concrete Failure,” (K.J. Willam, S. Sture and B. Hurlbut), in Finite Element Analysis of Reinforced Concrete Structures, Editors, C. Meyer and H. Okamura, ASCE, New York, 1986, pp. 226-254.

45.

“Stability and Uniqueness of Strain-Softening Computations,” (K.J. Willam, E. Pramono, and S. Sture), in Finite Element Methods for Nonlinear Problems (1985), Editors: P. Bergan, K.J. Bathe, W. Wunderlich, Springer Verlag, Berlin, 1986, pp. 119-142.

46.

“Composite Fracture Model for Strain-Softening Computations of Concrete,” (K.J. Willam, N. Bicanic, S. Sture, and E. Pramono), in Fracture Mechanics of Concrete: Fundamentals and Applications, Editor F.H. Wittmann, 1986, Elsevier, New York, pp. 221-235.