Citation: Jg. Simmonds, A mischaracterization of the role of membrane theory in the computation ofthe low natural frequencies of a clamped cylindrical shell, ARCH APPL M, 71(4-5), 2001, pp. 353-353
Citation: P. Ladeveze et Jg. Simmonds, The exact one-dimensional theory for end-loaded fully anisotropic beams ofnarrow rectangular cross section, J APPL MECH, 68(6), 2001, pp. 865-868
Citation: Jg. Simmonds, Rotary inertia in the classical nonlinear theory of shells and the constitutive (non-kinematic) Kirchhoff hypothesis, J APPL MECH, 68(2), 2001, pp. 320-323
Citation: Jg. Simmonds et Fym. Wan, An asymptotic analysis of the three-dimensional displacements and stressesin a spherical shell under inward radially opposed concentrated surface loads, INT J SOL S, 38(38-39), 2001, pp. 6869-6887
Citation: Jg. Simmonds, The fundamental solutions of Sanders and Simmonds for a shallow cylindrical shell are correct, INT J ENG S, 39(15), 2001, pp. 1785-1786
Citation: Jg. Simmonds, Love's stress function for torsionless axisymmetric deformation of elastically isotropic bodies with body forces, J APPL MECH, 67(3), 2000, pp. 628-629
Citation: P. Ladeveze et al., Computing exact, elastodynamic linear three-dimensional solutions for plates from classical two-dimensional solutions, INT J SOL S, 37(46-47), 2000, pp. 7029-7042
Citation: Tj. Mcdevitt et Jg. Simmonds, Reduction of the Sanders-Koiter equations for fully anisotropic circular cylindrical shells to two coupled equations for a stress and a curvature function, J APPL MECH, 66(3), 1999, pp. 593-597