Bio-inspired 3D printing of self-growing multinetwork elastomer composites

Volume: 279, Pages: 114777 - 114777
Published: Jan 1, 2022
Abstract
Natural tissues possess the self-strengthening ability through biological growth, during which additional building blocks are transported into the tissues and attached to the pre-existing microstructures. In contrast, synthetic materials are typically static, meaning neither their dimensions nor their mechanical properties are able to be altered after the materials are manufactured into specific structures. Recently the concept of bio-inspired...
Paper Details
Title
Bio-inspired 3D printing of self-growing multinetwork elastomer composites
Published Date
Jan 1, 2022
Volume
279
Pages
114777 - 114777
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