摘要
In recent years there has been interest in using flax fibres to produce composites because of a number of attributes, including low density, biodegradability and high mechanical properties. It was found that treatment of flax fibres may be required to improve the bond quality with a resin. These treatments also have an impact on the properties of the fibres themselves. The objective of this project was to evaluate the impact of three treatment methods on the mechanical properties of flax fibres. The three treatment methods were alkaline, enzyme and steam-heat. After treatment, flax fibres were tested in tension using a universal test machine. Results showed that tensile strength and Young's modulus of flax fibre can be enhanced significantly by the three treatment methods, compared with untreated flax fibres. Enzyme treatment was shown to be the best approach to improve mechanical properties of flax fibre than alkaline and steam-heat treatment.
In recent years there has been interest in using flax fibres to produce composites because of a number of attributes, including low density, biodegradability and high mechanical properties. It was found that treatment of flax fibres may be required to improve the bond quality with a resin. These treatments also have an impact on the properties of the fibres themselves. The objective of this project was to evaluate the impact of three treatment methods on the mechanical properties of flax fibres. The three treatment methods were alkaline, enzyme and steam-heat. After treatment, flax fibres were tested in tension using a universal test machine. Results showed that tensile strength and Young's modulus of flax fibre can be enhanced significantly by the three treatment methods, compared with untreated flax fibres. Enzyme treatment was shown to be the best approach to improve mechanical properties of flax fibre than alkaline and steam-heat treatment.
作者
Cao Yongjian
Chui YingHei
Chan Felisa
Gong Meng
Ren Haiqing
Wang Ge
Cao Yongjian;Chui YingHei;Chan Felisa;Gong Meng;Ren Haiqing;Wang Ge;Cao Yongjian1;Chui Ying Hei1;Chan Felisa1;Gong Meng1;Ren Haiqing2;Wang Ge3(不详;Research Institute of Wood Industry,Chinese Academy of Forestr;International Centre for Bamboo and Ratta)
出处
《林业与环境科学》
2018年第3期145-152,共8页
Forestry and Environmental Science
基金
the Agricultural Bioproducts Innovation Program(ABIP)of Agriculture and Agri-food Canada
