不同預處理對兩段浸漬輸送帶之研究

本研究係將高強力聚酯/尼龍交織物以遠紅外線照射處理、微波處理與減量加工處理，及浸漬溶液濃度為2%、4%、6%及8%之異氰酸鹽水溶液等方法對布表面進行物理及化學處理。經遠紅外線照射處理之布與布層間的剝離強力最高達18.9kgf，較原布提升131.62%，布與膠層間之剝離強力最高達22.75kgf，較原布提升164.53%。經微波照射處理之布與布層間的剝離強力最高達18.51kgf，較原布提升126.84%，而布與膠層間剝離強力最高達22.24kgf，較原布提升158.60%。經減量加工處理之布與布層間剝離強力最高達12.04kgf，較原布提升47.55%，而布與膠層間剝離強力最高達14.86kgf，較原布提升72.83%。

關鍵字

預處理；遠紅外線；微波；減量加工；剝離強力

並列摘要

In this study, the high tenacity polyester woven fabrics surface of the fabric treaded by physical and chemical processing, treaded with far-infrared radiation, microwave radiation and reduction processing, and dipped 2%, 4%,6% and 8% isocyanate solution. The fabric which treated by far-infrared radiation the adhesion strength between fabric and fabric layer up to 18.9kgf, up rise 131.62%, adhesion strength between fabric and rubber up to 22.75kgf, up rise 164.53%. The fabric which treated by microwave radiation the adhesion strength between fabric and fabric layer up to 18.51kgf, up rise 126.84%, adhesion strength between fabric and rubber up to 22.24kgf, up rise 158.60%. The fabric which treated by far-infrared the adhesion strength between fabric and fabric layer up to 12.04kgf, up rise 47.55%, adhesion strength between fabric and rubber up to 14.86kgf, up rise 72.83%.

並列關鍵字

pre-treatment ； far-infrared ； microwave ； reduction ； adhesion strength

被引用紀錄

Pan, C. C. (2015). 在鹼性溶液中使用電漿增強接觸輝光放電製備多層石墨烯 [master's thesis, National Chiao Tung University]. Airiti Library. https://doi.org/10.6842/NCTU.2015.00451

李柏崇（2013）。非破壞檢測技術應用於評估古蹟與歷史建築常用台灣櫸與樟樹立木材質之研究〔碩士論文，國立臺北藝術大學〕。華藝線上圖書館。https://doi.org/10.6835/TNUA.2013.00135

Chen, H. H. (2012). 高效率視訊編碼標準非除區塊濾波器編碼器之分析及積體電路架構設計 [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU.2012.00658

Liu, C. W. (2014). 單電子電晶體電路寬度最小化之合成技術 [master's thesis, National Tsing Hua University]. Airiti Library. https://www.airitilibrary.com/Article/Detail?DocID=U0016-2912201413493278

國際替代計量

不同預處理對兩段浸漬輸送帶之研究

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