Adaptive topology optimization under suitably graded THB‐spline refinement and coarsening

Abstract: In the present work, we propose an adaptive topology optimization (TO) method under suitably graded truncated hierarchical B-spline refinement and coarsening (SGTHB-TO). A series of algorithms have been devised to implement admissible adaptivity of SGTHB-TO by resorting to the definitions of suitably graded isogeometric hierarchical meshes. We apply the proposed SGTHB-TO method to two-dimensional and three-dimensional TO problems of compliance and compliant mechanism. According to the numerical results, SGTHB-… Show more

“…Vector λ contains the unknown temperature and flux coefficients corresponding to the NURBS basis functions. The (known) right hand side vector b contains not only the vector y but also the products of the terms in ũ and t that are prescribed boundary conditions and the corresponding columns of H and G. By solving the linear system in (43), all the unknown coefficients of temperature and heat flux can be obtained. The temperature and flux density distributions around the boundary can then be recovered from ( 23) and (24).…”

“…Since the initial IGA was based on NURBS [6] which contains a tensor product form, the uniform NURBS-based refinement scheme is difficult to capture local features of interest. In order to ameliorate this difficulty, the method has been extended to T-splines [41,42], THB-splines [43], hierarchical B-splines (HB) [15], LR-splines [44], hierarchical box splines [45] and Powell-Sabin B-splines [46].…”

An isogeometric boundary element method for heat transfer problems of multiscale structures in electronic packaging with arbitrary heat sources

“…Vector λ contains the unknown temperature and flux coefficients corresponding to the NURBS basis functions. The (known) right hand side vector b contains not only the vector y but also the products of the terms in ũ and t that are prescribed boundary conditions and the corresponding columns of H and G. By solving the linear system in (43), all the unknown coefficients of temperature and heat flux can be obtained. The temperature and flux density distributions around the boundary can then be recovered from ( 23) and (24).…”

“…Since the initial IGA was based on NURBS [6] which contains a tensor product form, the uniform NURBS-based refinement scheme is difficult to capture local features of interest. In order to ameliorate this difficulty, the method has been extended to T-splines [41,42], THB-splines [43], hierarchical B-splines (HB) [15], LR-splines [44], hierarchical box splines [45] and Powell-Sabin B-splines [46].…”

An isogeometric boundary element method for heat transfer problems of multiscale structures in electronic packaging with arbitrary heat sources

A space-preserving data structure for isogeometric topology optimization in B-splines space

Implicit Heaviside filter with high continuity based on suitably graded THB splines