Self-recovery and fatigue resistance behavior of the C4-G20-P20
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Download scientific diagram | Self-recovery and fatigue resistance behavior of the C4-G20-P20 conjoined-network hydrogel. (A) Sequential loading-unloading compression tests without interval and (B) the corresponding calculated total and dissipated toughness of the C4-G20-P20 hydrogel under different strains (ɛ = 0.2, 0.4, 0.6, and 0.8). (C) Recovery cyclic compression tests and (D) the corresponding calculated total and dissipated toughness of the C4-G20-P20 hydrogel for different relaxation times under a constant strain (ɛ = 0.6). (E) Fatigue resistance and (F) the corresponding calculated total and dissipated toughness of the C4-G20-P20 hydrogel with five successive loading-unloading cycles without interval under a constant strain (ɛ = 0.6). (G) Proposed mechanism for the self-recovery and fatigue resistance ability: Ionic bonds reformed at original sites or other accessible sites. from publication: Conjoined-network rendered stiff and tough hydrogels from biogenic molecules | Hydrogels from biological sources are expected as potential structural biomaterials, but most of them are either soft or fragile. Here, a new strategy was developed to construct hydrogels that were both stiff and tough via the formation of the conjoined-network, which was | Hydrogel, Biocompatible Materials and Biocompatibility | ResearchGate, the professional network for scientists.
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Self-recovery and fatigue resistance behavior of the C4-G20-P20
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Fig. 4 Self-recovery and fatigue resistance behavior of the C4-G20-P20 conjoined-network hydrogel. Self-recovery and fatigue resistance behavior of the. - ppt download
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Characterization of fatigue behavior of AA2024‐T351 aluminum alloy - Khadimallah - 2023 - Fatigue & Fracture of Engineering Materials & Structures - Wiley Online Library
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Characterization of fatigue behavior of AA2024‐T351 aluminum alloy - Khadimallah - 2023 - Fatigue & Fracture of Engineering Materials & Structures - Wiley Online Library
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