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A numerical method for form finding and shape optimization of reciprocal structures
Highlights An error function for form finding of reciprocal structures is formulated. Form finding is formulated as a minimization problem of the error function. The difficulty in incorporating structural analysis into form finding is solved. Optimal shapes can be found successfully using the proposed method.
Abstract Reciprocal structure is a special structural system that has a complex form. In this paper, a new numerical method is proposed for form finding and shape optimization of reciprocal structures. Two new parameters, contact point and contact vector, are introduced to describe the special lapping connections of the discrete bar elements of a reciprocal structure. Using these two parameters, it is easy to establish structural analysis model and conduct finite element analysis. The property of lapping connection is formulated according to the geometric condition. An error function is defined by uniting the connection lapping conditions, and the form finding problem of reciprocal structure can then be formulated as an optimization problem of minimizing the error function. The shape of a reciprocal structure is optimized by minimizing the total strain energy under static loads. Numerical examples demonstrate the effectiveness and applicability of the proposed method.
A numerical method for form finding and shape optimization of reciprocal structures
Highlights An error function for form finding of reciprocal structures is formulated. Form finding is formulated as a minimization problem of the error function. The difficulty in incorporating structural analysis into form finding is solved. Optimal shapes can be found successfully using the proposed method.
Abstract Reciprocal structure is a special structural system that has a complex form. In this paper, a new numerical method is proposed for form finding and shape optimization of reciprocal structures. Two new parameters, contact point and contact vector, are introduced to describe the special lapping connections of the discrete bar elements of a reciprocal structure. Using these two parameters, it is easy to establish structural analysis model and conduct finite element analysis. The property of lapping connection is formulated according to the geometric condition. An error function is defined by uniting the connection lapping conditions, and the form finding problem of reciprocal structure can then be formulated as an optimization problem of minimizing the error function. The shape of a reciprocal structure is optimized by minimizing the total strain energy under static loads. Numerical examples demonstrate the effectiveness and applicability of the proposed method.
A numerical method for form finding and shape optimization of reciprocal structures
Su, Yan (author) / Ohsaki, Makoto (author) / Wu, Yue (author) / Zhang, Jingyao (author)
Engineering Structures ; 198
2019-08-05
Article (Journal)
Electronic Resource
English
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