| | Mechanics of Solids A Journal of Russian Academy of Sciences | | Founded
in January 1966
Issued 6 times a year
Print ISSN 0025-6544 Online ISSN 1934-7936 |
Archive of Issues
Total articles in the database: | | 12854 |
In Russian (Èçâ. ÐÀÍ. ÌÒÒ): | | 8044
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In English (Mech. Solids): | | 4810 |
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<< Previous article | Volume 57, Issue 5 / 2022 | Next article >> |
Yuan Gao and Huai Wei Huang, "Research on Energy Absorption and Gradient Optimization of Connected Four-Curved Beams Honeycomb," Mech. Solids. 57 (5), 1222-1236 (2022) |
Year |
2022 |
Volume |
57 |
Number |
5 |
Pages |
1222-1236 |
DOI |
10.3103/S0025654422050193 |
Title |
Research on Energy Absorption and Gradient Optimization of Connected Four-Curved Beams Honeycomb |
Author(s) |
Yuan Gao (South China University of Technology, Guangzhou, 510640 China, 1074183730@qq.com)
Huai Wei Huang (South China University of Technology, Guangzhou, 510640 China, ctgy0606@mail.scut.edu.cn) |
Abstract |
Several different topology models are obtained by topology optimization with rectangle as basic configuration. According to these optimization models, three different structures are developed and the best energy-absorbing structure, namely the connected four curved beams honeycomb (CFCBH), is selected. Compared with other common honeycomb structures, the topology optimized structure has better energy absorption characteristics. We further study the mechanical properties of CFCBH, including its platform stress, densification strain and deformation. Finally, a gradient optimization algorithm is proposed, which directly link the optimization objective and design variables through function expression, and the optimization efficiency is greatly improved. After introducing the optimized gradient, the energy absorption capacity of the structure has been improved. The proposed functional gradient optimization algorithm is expected to be widely used. |
Keywords |
topology optimization, honeycomb structure, energy absorption, functionally graded optimization, impact |
Received |
06 April 2022 | Revised |
13 July 2022 | Accepted |
14 July 2022 |
Link to Fulltext |
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