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IGA. Robin BouclierЧитать онлайн книгу.

IGA - Robin Bouclier


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1.4 that the prerequisites for geometric modeling and numerical simulations are too different today to envisage a direct link between design and analysis without any additional effort from the two communities. Things are starting to move forward thanks to the arrival of IGA in some commercial FE packages (see, for example, Hartmann et al. (2011, 2016); Duval et al. (2015); Lai et al. (2017) for implementations in LS-Dyna, Abaqus and Radioss, respectively). But, now more than ever, both disciplines need to work together in order to handle this common goal and define the future of engineering design. Contributions, from an analytical point of view, are present in this book, to help bridge the remaining gap between design and analysis in the context of IGA.

      

      1.3.2. An ideal framework for parametric shape optimization

      Benefiting from the discussion of section 1.3.1, it is obvious that one way to naturally communicate between the design and analysis models is to use the IGA framework, as it enables us to get an analysis model made of splines functions. Hence, isogeometric shape optimization has been successfully applied to a wide range of applications since the advent of IGA (see Wall et al. (2008); Nagy et al. (2010, 2011, 2013); Qian (2010); Kiendl et al. (2014); Taheri and Hassani (2014); Fußeder et al. (2015); Wang and Turteltaub (2015); Kang and Youn (2016); Herrema et al. (2017); Lian et al. (2017); Choi and Cho (2018); Lei et al. (2018); Hirschler et al. (2019b); Weeger et al. (2019) among others). It concerns not only structural shape optimization, but also other fields, such as heat conduction (Wang et al. 2017b), electromagnetics (Nguyen et al. 2012; Dang Manh et al. 2014), fluid mechanics (Park et al. 2013) and many other optimization problems.

      1.4.1. The trimming concept


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