Affiliation:
1. State Key Laboratory of High-Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics, Chinese Academy of Sciences 200050 Shanghai P. R. China
2. State Key Laboratory of Chemical Engineering East China University of Science and Technology 200237 Shanghai P. R. China
3. Center of Materials Science and Optoelectronics Engineering University of Chinese Academy of Sciences 19 Yuquan Road 100049 Beijing P. R. China
4. State Key Laboratory of Rare Earth Materials Chemistry and Applications Peking University 100871 Beijing P. R. China
Abstract
AbstractBamboo is widely distributed, rapidly regenerable, and incorporates long cellulose fibers, which make it one of the most lightweight and strong natural materials. Processing bamboo into a high‐performance structural material for plastic replacement is highly promising but challenging. In this study, an all‐natural, high‐performance structural material is derived from natural bamboo with superior mechanical and thermal properties that benefit from the introduction of surface charge and further layer‐by‐layer assembly of bamboo cellulose fibers. The obtained modified bamboo fiber plate (MBFP) transcends the constraints of the natural size and anisotropy of bamboo, showing high flexural strength (ca. 179 MPa) and flexural modulus (ca. 12 GPa). Moreover, the product has an extremely low coefficient of thermal expansion (ca. 11.3×10−6 K−1), high thermal stability, and superior fire resistance. The excellent mechanical and thermal properties combined with the efficient and rational manufacturing process make MBFP a powerful plastic alternative for furniture, construction, and automotive industries.
Subject
General Energy,General Materials Science,General Chemical Engineering,Environmental Chemistry
Cited by
4 articles.
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