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B32B 21/13 (2005.12); B01D 11/02 (2005.12); B27K 3/02 (2005.12); B27K 3/16 (2005.12); B27K 3/20 (2005.12); B27K 3/36 (2005.12); B27K 3/38 (2005.12); B27K 3/48 (2005.12); B27K 5/06 (2005.12); B32B 7/12 (2005.12); D21C 3/02 (2005.12); D21C 3/12 (2005.12); D21C 9/00 (2005.12);

U.S. Cl.

CPC ...

B27K 5/065 (2012.12); B01D 11/0288 (2012.12); B27K 3/0278 (2012.12); B27K 3/16 (2012.12); B27K 3/20 (2012.12); B27K 3/36 (2012.12); B27K 3/38 (2012.12); B27K 3/48 (2012.12); B32B 7/12 (2012.12); B32B 21/13 (2012.12); D21C 3/022 (2012.12); D21C 3/12 (2012.12); D21C 9/005 (2012.12); D21C 9/007 (2012.12); B27K 2240/10 (2012.12); B27K 2240/30 (2012.12); B27K 2240/70 (2012.12); B32B 2419/00 (2012.12); B32B 2479/00 (2012.12); B32B 2571/00 (2012.12);

Abstract

A super strong and tough densified wood structure is formed by subjecting a cellulose-based natural wood material to a chemical treatment that partially removes lignin therefrom. The treated wood retains lumina of the natural wood, with cellulose nanofibers of cell walls being aligned. The treated wood is then pressed in a direction crossing the direction in which the lumina extend, such that the lumina collapse and any residual fluid within the wood is removed. As a result, the cell walls become entangled and hydrogen bonds are formed between adjacent cellulose nanofibers, thereby improving the strength and toughness of the wood among other mechanical properties. By further modifying, manipulating, or machining the densified wood, it can be adapted to various applications.

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