Global Journal of Engineering, Design & Technology
Open Access

ISSN: 2319-7293

+44-77-2385-9429

Abstract

Architected Tunable Energy Retention

Ghulam Abbas*

The properties of mechanical metamaterials, for instance, strength and energy ingestion are often "locked" in the wake of being delivered. While there have been tries to achieve tunable mechanical properties, state of the art advances toward still can't achieve high strength/energy maintenance with versatile tenability simultaneously. In this, we fabricate curiously, 3D architected organo hydrogels with express energy ingestion that is immediately tunable in a sensational reach up to 5 × 103 (from 0.0035 to 18.5 J g-1) by using on the energy spread incited by the synergistic mix of hydrogen holding and metal coordination. 

Published Date: 2022-11-10; Received Date: 2022-10-10

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