期刊
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
卷 177, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.compositesa.2023.107896
关键词
Mechanical properties; Computational modelling; Mechanical testing; 3-D Printing
This study aims to achieve displacement reconstruction through structure-sensing integration technology. A rapid iterative solution is proposed to cover the entire process from sensor-layout optimization to structure-sensing integrated fabrication then to displacement-reconstruction realization.
Realizing displacement reconstruction is one of the main goals of real-time intelligent monitoring systems, motivating a highly promising requirement for structure-sensing integration technology. To obtain displacementreconstruction-realized components, the crucial challenges cover the whole process including sensor-layout design, sensor assembly and rapidly functional verification. Accordingly, a rapid iterative solution is proposed from sensor-layout optimization to structure-sensing integrated fabrication then to displacement-reconstruction realization. A sensor array is optimally designed with minimized unit number and simplified circuit layout to integrate on the surface of or embed into the structures. Then we combine the direct-ink-writing with fused deposition modeling, achieving hybrid 3D printing strategy to fabricate the structure-sensing integrated components within one step. The local strains of plates are detected by the sensors and their full-field displacements are then reconstructed without any loading information. This work provides insights into the design and fabrication of structure-function-integration structures or devices.
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