ASIA unversity:Item 310904400/17537
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    题名: Manufacturing technique and mechanical properties of plastic nanocomposite
    作者: Jia-Horng Lin;Ching-Wen Lin;Chen-Hung Huang;Chien-Lin Huang;Ching-Wen Lou
    贡献者: 時尚設計學系
    关键词: A. Nano-structures;A. Thermoplastic resin;B. Mechanical properties;E. Injection moulding
    日期: 2013-01
    上传时间: 2012-11-26 02:34:06 (UTC+0)
    摘要: This research first produced the 20A140 nano-composite by melt-blending polyamide 6 (PA6) and one type of montmorillonite—(Cloisite 20A) one to six times, after which the nano-composites were evaluated by mechanical properties. The results showed that the exfoliated nano-composite displayed the best tensile modulus of 4.1 GPa; however, both its elongation at break and its notch Izod impact strength were inferior to those of the intercalated nano-composite. When melt-blended for six times, the exfoliated nano-composite displayed a tensile modulus of 3.9 GPa and a yield stress of 80 MPa. The intercalated nano-composite’s tensile modulus and yield stress were both on the increase when silicate layers were more dispersed. Finally, for the conventional nano-composites, the tensile modulus and yield stress rose slightly with an increase in melt-blending cycles; however, the elongation at break and notch Izod impact strength were not influenced by the number of melt-blending cycles.
    This research first produced the 20A140 nano-composite by melt-blending polyamide 6 (PA6) and one type of montmorillonite—(Cloisite 20A) one to six times, after which the nano-composites were evaluated by mechanical properties. The results showed that the exfoliated nano-composite displayed the best tensile modulus of 4.1 GPa; however, both its elongation at break and its notch Izod impact strength were inferior to those of the intercalated nano-composite. When melt-blended for six times, the exfoliated nano-composite displayed a tensile modulus of 3.9 GPa and a yield stress of 80 MPa. The intercalated nano-composite’s tensile modulus and yield stress were both on the increase when silicate layers were more dispersed. Finally, for the conventional nano-composites, the tensile modulus and yield stress rose slightly with an increase in melt-blending cycles; however, the elongation at break and notch Izod impact strength were not influenced by the number of melt-blending cycles.
    關聯: COMPOSITES PART B-ENGINEERING,44(1):34-39.
    显示于类别:[時尚設計學系] 期刊論文

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