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(C) A geometric illustration showing the test of the configurability. (C and D) Study of configurable seal/open of the elastic cracks in phase II. The experimental and simulation results for the geometries are provided in SI Appendix, Fig.
#Construction master pro for windows keygen crack#
(B) A diagram predicting the controlled crack formation. Controlled crack formation takes place along the direction of the peeling force F 1 failure occurs when crack forms along the interface (referred to as neck region) of the locked part (darker orange). (A) A 2D model is simplified from the cross-sectional view of the closed-loop array for studying the crack formation process. (A and B) Study of the controlled formation of elastic cracks in phase I. The elastic crack self-sealed during molding and multiple intact closed-loop replicas were obtained. (D) SEM image showing the process of separating PDMS (phase II) from the closed-loop replica. (C) SEM images of the elastic crack formation in PDMS (phase I) being pulled out from an array of closed loops with diverse directions (Inset). Note that temperature plays the dominating role, leaving wide time windows for operation. The dashed line denotes maximum E of PDMS when fully cured at high temperature. (B) Molecular-level mechanism of dynamical manipulation of the mechanics of PDMS (phases I and II) by adjusting the curing temperature and curing time. In phase I, PDMS is prone to large elastic deformation and cracking in phase II, PDMS is relatively rigid and can keep the conformality.
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The lower row shows the configurable seal/open of the crack in PDMS in a molding process to create a replica of the master (phase II). The upper row shows the controlled formation of the elastic crack in PDMS in a casting process to create a PDMS mold from the master (phase I). (A) Schematic illustration of CECE for molding closed-loop structures. Our work paves the way for the cost-effective, large-scale production of a variety of flexible, inexpensive, and transparent 3D hierarchical and biomimetic materials.ĬECE. Herein, by harnessing the configurable elastic crack engineering-controlled formation and configuration of cracks in elastic materials-an effect normally avoided in various industrial processes, we report the development of a facile and powerful technique that enables the faithful transfer of arbitrary hierarchical structures with broad material compatibility and structural and functional integrity. While notable progress has been made in the design and manufacturing of various hierarchical materials, the state-of-the-art approaches suffer from limited materials selection, high costs, as well as low processing throughput. Three-dimensional hierarchical morphologies widely exist in natural and biomimetic materials, which impart preferential functions including liquid and mass transport, energy conversion, and signal transmission for various applications.
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