Boundary element methodsMasataka TanakaPergamon PressJ. Kihara, T. Aizawa and K. Taneda: BoundaryElement Methods in Applied Mechanics, ed. by M. Tanaka and T. A. Cruse. Per- gamonPress, Tokyo, (1988), 463.M. Tanaka and T.A. Cruse. Boundary element methods in applied mechanics. Pergamon...
The Boundary Element Method is a simple, efficient and cost effective computational technique which provides numerical solutions - for objects of any shap- for a wide range of scientific and engineering problems. In dealing with the development of the mathematics of the Boundary Element Method the ...
The paper presents a brief review of current research on computational approach to inverse problems in engineering mechanics. EMphasis is placed on applications of the boundary element method, and the paper reports on some recent applications of such approach to a few classes of the inverse problems...
This work presents alternative time-marching schemes for performing elastodynamic analysis by the Boundary Element Method. The use of the static fundamental solution and the maintenance of the domain integral associated to the accelerations characterize the formulation employed in this work. It is called ...
Barros, G., Pereira, A., Rojek, J.et al.Correction to: Time domain coupling of the boundary and discrete element methods for 3D problems.Comput Mech74, 799–803 (2024). https://doi.org/10.1007/s00466-024-02483-3 Download citation ...
The dual boundary element formulation for elastoplastic fracture mechanics In this paper the extension of the dual boundary element method (DBEM) to the analysis of elastoplastic fracture mechanics (EPFM) problems is presented. Th... V Leit?O,MH Aliabadi,DP Rooke - 《International Journal for ...
The main disadvantage of the FEM, when used in the context of modeling crack propagation, is that the finite element mesh has to be updated following each step of crack extension. Over the past ten years, the boundary element method (BEM) has emerged as an alternative method for the ...
Grain boundary solute segregation influences most bulk material properties, and understanding solute thermodynamics at grain boundaries is critical for engineering them. However, the vast grain boundary space in polycrystals is challenging to evaluate du
probabilistic fracture mechanics rˆ,θ polar coordinates S standard deviation of a random variable SBFEM scaled boundary finite element method [Si] diagonal blocks of real Schur matrix SIF stress intensity factor {u(ξ)} nodal displacement functions {u(ξ, η)} displacements in the radial and ...
In the good old days, when I first began using finite element analysis, it was sometimes not possible to prescribe nonzero displacements in finite element programs for structural mechanics. The limitation was imposed by the added complexity of the programming. If this was the case, the best opt...