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Sustainable fabrication of high-strength wood boards from Vitex negundo via a formaldehyde-free approach and hygrothermal synergy
In response to the increasing apprehensions regarding formaldehyde emissions from traditional wood-based panels and the rising demand for sustainable materials, this study focuses on the development of a high-strength, adhesive-free wood board sourced from Vitex negundo . An environmentally friendly...
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| Published in: | Advanced composites and hybrid materials 2024-12, Vol.7 (6), Article 244 |
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| Main Authors: | , , , , , , , |
| Format: | Article |
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| container_issue | 6 |
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| container_title | Advanced composites and hybrid materials |
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| creator | Huo, Hongfei Zhang, Yiding Zhang, Lei Zhang, Jijuan Yang, Yang Bai, Mingtao Zhang, Xu Zhang, Zhongfeng |
| description | In response to the increasing apprehensions regarding formaldehyde emissions from traditional wood-based panels and the rising demand for sustainable materials, this study focuses on the development of a high-strength, adhesive-free wood board sourced from
Vitex negundo
. An environmentally friendly, multi-functional board with exceptional mechanical properties has been successfully manufactured by leveraging hygrothermal synergistic effects including precise control of moisture content, temperature, and pressure. The specified manufacturing parameters namely a 4% moisture content, 175 °C hot-pressing temperature, and 23 MPa pressure, resulted in the production of boards exhibiting a bending strength of 23.17 MPa and a tensile strength of 65.29 MPa. The utilization of natural adhesives aligns with environmental conservation regulations and enhances the resistance of the board to water, flames, and UV radiation. Additionally, the recyclability of the material highlights its potential to foster a circular economy. Overall, these findings establish
Vitex negundo
wood-based boards as a viable and promising alternative for use in the construction and furniture industries that present economic and environmental advantages.
Graphical Abstract |
| doi_str_mv | 10.1007/s42114-024-01045-8 |
| format | article |
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Vitex negundo
. An environmentally friendly, multi-functional board with exceptional mechanical properties has been successfully manufactured by leveraging hygrothermal synergistic effects including precise control of moisture content, temperature, and pressure. The specified manufacturing parameters namely a 4% moisture content, 175 °C hot-pressing temperature, and 23 MPa pressure, resulted in the production of boards exhibiting a bending strength of 23.17 MPa and a tensile strength of 65.29 MPa. The utilization of natural adhesives aligns with environmental conservation regulations and enhances the resistance of the board to water, flames, and UV radiation. Additionally, the recyclability of the material highlights its potential to foster a circular economy. Overall, these findings establish
Vitex negundo
wood-based boards as a viable and promising alternative for use in the construction and furniture industries that present economic and environmental advantages.
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Vitex negundo
. An environmentally friendly, multi-functional board with exceptional mechanical properties has been successfully manufactured by leveraging hygrothermal synergistic effects including precise control of moisture content, temperature, and pressure. The specified manufacturing parameters namely a 4% moisture content, 175 °C hot-pressing temperature, and 23 MPa pressure, resulted in the production of boards exhibiting a bending strength of 23.17 MPa and a tensile strength of 65.29 MPa. The utilization of natural adhesives aligns with environmental conservation regulations and enhances the resistance of the board to water, flames, and UV radiation. Additionally, the recyclability of the material highlights its potential to foster a circular economy. Overall, these findings establish
Vitex negundo
wood-based boards as a viable and promising alternative for use in the construction and furniture industries that present economic and environmental advantages.
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Vitex negundo
. An environmentally friendly, multi-functional board with exceptional mechanical properties has been successfully manufactured by leveraging hygrothermal synergistic effects including precise control of moisture content, temperature, and pressure. The specified manufacturing parameters namely a 4% moisture content, 175 °C hot-pressing temperature, and 23 MPa pressure, resulted in the production of boards exhibiting a bending strength of 23.17 MPa and a tensile strength of 65.29 MPa. The utilization of natural adhesives aligns with environmental conservation regulations and enhances the resistance of the board to water, flames, and UV radiation. Additionally, the recyclability of the material highlights its potential to foster a circular economy. Overall, these findings establish
Vitex negundo
wood-based boards as a viable and promising alternative for use in the construction and furniture industries that present economic and environmental advantages.
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| language | eng |
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| source | Springer Link |
| subjects | Ceramics Chemistry and Materials Science Composites Glass Materials Engineering Materials Science Natural Materials Polymer Sciences |
| title | Sustainable fabrication of high-strength wood boards from Vitex negundo via a formaldehyde-free approach and hygrothermal synergy |
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