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    The use of discontinuous first and second-order mixed boundary elements for 2D elastostatics
    (TECHNO-PRESS, 2010) Severcan, M. H.; Tanrikulu, A. K.; Tanrikulu, A. H.; Deneme, I. O.
    In classical higher-order discontinuous boundary element formulation for two-dimensional elastostatics, interpolation functions for different boundary variables (i.e., boundary displacements and tractions) are assumed to be the same. However, there is a derivational relationship between these variables. This paper presents a boundary element formulation, called Mixed Boundary Element Formulation, for two dimensional elastostatic problems in which above mentioned relationship is taking into account. The formulations are performed by using discontinuous first and second-order mixed boundary elements. Based on the formulations presented in this study, two computer softwares are developed and verified through some example problems. The results show that the present formulation is credible.
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    Use and comparison of different types of boundary elements for 2D soil-structure interaction problems
    (ELSEVIER SCI LTD, 2009) Deneme, I. O.; Yerli, H. R.; Severcan, M. H.; Tanrikulu, A. H.; Tanrikulu, A. K.
    In this study, the usage and the comparison of some discontinuous boundary elements (constant, linear and quadratic) are investigated for 2D soil-structure interaction (SSI) problems. Based on the formulations presented in this study, some general purpose computer programs coded in FORTRAN77 are developed for each type of discontinuous boundary elements for elastic or visco-elastic 2D SSI problems. The programs perform the analysis in Fourier transform space. The results of 2D dynamic SSI problems are compared with those in the literature. Examples studied here indicate that present formulations have sufficient computational accuracy for analyzing 2D SSI problems. As a result of this study, the use of constant element is more sufficient than the other type of elements. (C) 2009 Elsevier Ltd. All rights reserved.