上海交通大学学报(英文版) ›› 2012, Vol. 17 ›› Issue (5): 586-592.doi: 10.1007/s12204-012-1329-2

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Preparation and Characterization of the Covalent-Integrated Poly(lactic acid) and Scrap Leather Fiber Composites

DUAN Jing-kuan1* (段景宽), FAN Chang-xiu1,2 (范常秀), LI Ya1 (李亚), JIANG Lan1 (蒋岚), SHAO Shuang-xi1 (邵双喜)   

  1. (1. Institute of Material Engineering, Ningbo University of Technology, Ningbo 315016, Zhejiang, China; 2. Department of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030021, China)
  • 出版日期:2012-10-30 发布日期:2012-11-16
  • 通讯作者: DUAN Jing-kuan1* (段景宽) E-mail:jkduan@sjtu.org

Preparation and Characterization of the Covalent-Integrated Poly(lactic acid) and Scrap Leather Fiber Composites

DUAN Jing-kuan1* (段景宽), FAN Chang-xiu1,2 (范常秀), LI Ya1 (李亚), JIANG Lan1 (蒋岚), SHAO Shuang-xi1 (邵双喜)   

  1. (1. Institute of Material Engineering, Ningbo University of Technology, Ningbo 315016, Zhejiang, China; 2. Department of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030021, China)
  • Online:2012-10-30 Published:2012-11-16
  • Contact: DUAN Jing-kuan1* (段景宽) E-mail:jkduan@sjtu.org

摘要: Scrap leather fibers (SLFs) modified with active silane containing epoxide groups were incorporated into poly(lactic acid) (PLA) modified by vinyl trimethoxysilane, i.e., the PLA/SLF composites were prepared for bio-composites by solvent compounding technology in this article. The effects of silane coupling agents on the structures of PLA and SLF molecules were examined, and the mechanical properties and thermal stability of PLA/SLF composites were also measured. The results of Fourier-transform infrared spectroscopy (FTIR) had proved that silane had been incorporated successfully to PLA and SLF molecules by means of the solvent technology. Scanning electric microscopy (SEM) was used to investigate both the changes in shapes between the pristine SLFs and the treated SLFs and the microscopic structures of composites. According to SEM results, it was shown that there were some significant differences between the untreated and treated SLFs, and a double continuous phase structure had occurred in PLA/SLF composites due to the excellent dispersion of SLFs in matrix. The addition of the treated SLFs into PLA resulted in a distinct improvement of the impact and tensile strengths. When the mass fraction of the treated SLFs was 15%, the notched impact strength and tensile strength of PLA/SLF bio-composites were improved by 34.4% and 21.2% compared with the pristine PLA, respectively. Additionally, with the increase of the modified SLFs content, the thermal stability of PLA/SLF bi-composites was apparently improved. The macroscopic properties of bio-composites were found to be strongly dependent on their components, concentration, dispersion and resulted morphological structures.

关键词: poly(lactic acid) (PLA), scrap leather fibre (SLF), composite, active silane

Abstract: Scrap leather fibers (SLFs) modified with active silane containing epoxide groups were incorporated into poly(lactic acid) (PLA) modified by vinyl trimethoxysilane, i.e., the PLA/SLF composites were prepared for bio-composites by solvent compounding technology in this article. The effects of silane coupling agents on the structures of PLA and SLF molecules were examined, and the mechanical properties and thermal stability of PLA/SLF composites were also measured. The results of Fourier-transform infrared spectroscopy (FTIR) had proved that silane had been incorporated successfully to PLA and SLF molecules by means of the solvent technology. Scanning electric microscopy (SEM) was used to investigate both the changes in shapes between the pristine SLFs and the treated SLFs and the microscopic structures of composites. According to SEM results, it was shown that there were some significant differences between the untreated and treated SLFs, and a double continuous phase structure had occurred in PLA/SLF composites due to the excellent dispersion of SLFs in matrix. The addition of the treated SLFs into PLA resulted in a distinct improvement of the impact and tensile strengths. When the mass fraction of the treated SLFs was 15%, the notched impact strength and tensile strength of PLA/SLF bio-composites were improved by 34.4% and 21.2% compared with the pristine PLA, respectively. Additionally, with the increase of the modified SLFs content, the thermal stability of PLA/SLF bi-composites was apparently improved. The macroscopic properties of bio-composites were found to be strongly dependent on their components, concentration, dispersion and resulted morphological structures.

Key words: poly(lactic acid) (PLA), scrap leather fibre (SLF), composite, active silane

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