AI Article Synopsis
- The article discusses pressure-actuated cellular structures (PACS), emphasizing their effectiveness for compliant mechanisms, similar to the Venus flytrap.
- Research highlights advancements in textile-based manufacturing of PACS, transitioning from simple single-row designs to more complex double-row configurations capable of antagonistic deformation.
- The paper includes both theoretical and experimental findings, detailing design adaptations necessary for optimal performance and summarizing pre-simulation results on the deformation capacity of the new PACS.
Article Abstract
The use of pressure-actuated cellular structures (PACS) is an effective approach for the application of compliant mechanisms. Analogous to the model in nature, the Venus flytrap, they are made of discrete pressure-activated rows and can be deformed with high stiffness at a high deformation rate. In previous work, a new innovative approach in their integral textile-based manufacturing has been demonstrated based on the weaving technique. In this work, the theoretical and experimental work on the further development of PACS from simple single-row to double-row PACS with antagonistic deformation capability is presented. Supported by experimental investigations, the necessary adaptations in the design of the textile preform and the polymer composite design are presented and concretized. Based on the results of pre-simulations of the deformation capacity of the new PACS, their performance was evaluated, the results of which are presented.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8469223 | PMC |
| http://dx.doi.org/10.3390/polym13183128 | DOI Listing |
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