Engineering; Mathematics | (2) |
Hypersingular boundary integral equations; stress evaluation; free terms; boundary element method | (2) |
No aplica | (1) |
Richard’s equation; Helmholtz equation; DRBEM; predictor-corrector; infiltration; root water uptake | (1) |
transversely isotropic materials; Stroh formalism; fundamental solution; free-space Green’s functions; Somigliana identity; boundary integral equations; boundary element method | (1) |
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Recent developments in the evaluation of the 3D fundamental solution and its derivatives for transversely isotropic elastic materials V. Mantič; School of Engineering, University of Seville - L. Távara; School of Engineering, University of Seville - J.E. Ortiz; School of Engineering, University of Seville - F. París; School of Engineering, University of Seville
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Hypersingular formulation for boundary stress evaluation revisited. Part 2: Corners. Alberto Salvadori; University of Brescia
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A Technique to Remove Second Order Singularity Application in the Boundary Element Method for Elastoplasticity Plane Stress Analysis S.A. Bakar; Rutgers University Libraries - A.L. Saleh
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Hypersingular formulation for boundary stress evaluation revisited. Part 1: Smooth boundaries. Alberto Salvadori; University of Brescia
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Suction Potential and Water Absorption from Periodic Channels in Different Types of Homogeneous Soils I. Solekhudin; Mathematics and Mathematics Education National Institute of Education Nanyang Technological University, Singapore and Department of Mathematics Faculty of Mathematics and Natural Sciences Gadjah Mada University, Indonesia - K. C. Ang; Mathematics and Mathematics Education National Institute of Education Nanyang Technological University, Singapore
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