This paper demonstrates how the biological growth method, studied by Mattheck in the 1990s, can be easily implemented for structural shape optimization finite element method (FEM) analyses using advanced radial basis functions (RBF) mesh morphing. We use the same mechanism observed in tree trunks: hot spots of higher stresses promote material growth as well as reducing the stress itself thanks to the added thickness. Mesh morphing is a key enabler in adapting the desired shape, calculated over the surface of the finite element analysis (FEA) mesh, to the entire solid domain. According to the same principle, material can be also removed allowing for lighter structures. We first explain the method by studying a tree trunk and then through a v...
Mesh morphing is one of the most promising approach for problems in which numerical analyses, based ...
This work addresses structural shape morphing, defined as change of shape due to modulus manipulatio...
A classical structural optimisation problem consists of a problem-specific objective function which ...
This paper demonstrates how the biological growth method, studied by Mattheck in the 1990s, can be e...
The great flexibility of emerging production processes based on additive manufacturing is stimulatin...
The Biological Growth Method (BGM) is an efficient optimization approach suitable for the surface st...
Radial basis functions (RBF) mesh morphing is a well established approach to quickly update an exist...
The increasing importance of optimization in manufacturing processes led to the improvement of well ...
A numerical evolutionary procedure for the structural optimisation for stress reduction of two-dimen...
International audienceNowadays, additive manufacturing processes greatly simplify the production of ...
International audienceNature has developed smart strategies to morph joint contact surfaces as a res...
Mesh morphing is one of the most promising approach for problems in which numerical analyses, based ...
This work addresses structural shape morphing, defined as change of shape due to modulus manipulatio...
A classical structural optimisation problem consists of a problem-specific objective function which ...
This paper demonstrates how the biological growth method, studied by Mattheck in the 1990s, can be e...
The great flexibility of emerging production processes based on additive manufacturing is stimulatin...
The Biological Growth Method (BGM) is an efficient optimization approach suitable for the surface st...
Radial basis functions (RBF) mesh morphing is a well established approach to quickly update an exist...
The increasing importance of optimization in manufacturing processes led to the improvement of well ...
A numerical evolutionary procedure for the structural optimisation for stress reduction of two-dimen...
International audienceNowadays, additive manufacturing processes greatly simplify the production of ...
International audienceNature has developed smart strategies to morph joint contact surfaces as a res...
Mesh morphing is one of the most promising approach for problems in which numerical analyses, based ...
This work addresses structural shape morphing, defined as change of shape due to modulus manipulatio...
A classical structural optimisation problem consists of a problem-specific objective function which ...