查詢結果分析
來源資料
相關文獻
- Studies on the Preparation and Properties of Conductive Nylon6 Films
- The Preparation and Property Study on Metallized Nylon4 Films
- 金屬材料塗佈織物抗靜電之研究
- 聚酼胺纖維(Nylon 6 及 Nylon 6.6)生產技術及未來展望
- 疏水性織物(聚酯,尼龍6)於噴射式液流染色機噴壓、流量、速度之研究
- 廿一世紀主流纖維--尼龍66
- 半導體標準--表面電阻標準之建立
- 尼龍66長纖布發展趨勢
- Novel Method to Prepare Conductive Coatings from Metal Chelate of Polyester
- PA6/POE/EEA合金的相態及力學性能研究
頁籤選單縮合
題名 | Studies on the Preparation and Properties of Conductive Nylon6 Films=尼龍6導電薄膜的製作及其性質的研究 |
---|---|
作者姓名(中文) | 黃鵲容; | 書刊名 | 樹德學報 |
卷期 | 25 2000.03[民89.03] |
頁次 | 頁55-67 |
分類號 | 467.7 |
關鍵詞 | 導電性聚合體; 金屬化薄膜; 聚酼胺; 金屬螫合膜; 表面電阻; 尼龍6; Conductive polymer; Metallized nylon6; Metal chelate film; Surface resistivity; |
語文 | 英文(English) |
中文摘要 | 本研究研發一系列加工容易、製程簡便,具高導電性的金屬化導電薄膜;其構成材料包括尼龍6聚合體及過渡金屬鹽類。尼龍6聚合體合成方便且價格低廉,是一種泛用的聚合體基材。本研究利用紫外光和可見光光譜儀分析尼龍6與金屬鹽類之間的配位鍵結,並探討金屬鹽類的種類、濃度對薄膜導電度的影響。金屬化尼龍6導電薄膜之表面經由SEM分析,發現薄膜表面金屬形成網狀連結,構成良好的導電通路,薄膜表面電阻可降低至 10□~10□Ω/cm□。另外,此類金屬化薄膜的靜電防護(ESD)效果優良,機械性質穩定,在實際的應用上具有商業化的潛力。 |
英文摘要 | The preparation and electrical properties of a novel and easily processed conductive polymer are reported in this paper. The conductive polymer, which was studied in the form of conductive films, was prepared by adding metal salts into nylon 6 solution with further treatment of SBH solution. These metallized nylon6 polymer films exhibited low effect resistivity around 10□~10□Ω/cm□ and were tested to have high antistatic value. Some critical factors affecting the conductivity of these metallized films were investigated. The strongly adhering metal on the film was believed to be responsible for the enhancement of the electrical conductivity. Besides, the mechanical properties and scanning electron microscope (SEM) observations were also studied. The results showed that electrical and chemical properties of these metallized conductive films were stable in spite of prolonged exposure to atmospheric conditions. All these findings suggest this novel conductive polymer has potential merits in industrial applications and commercial production. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。