摻合系統為50/50 有較好之結晶能力,且 Avrami equation 分析獲得參 數k,與 Neat PC 比較發現明顯提昇 PC 結晶之能力,其中以 PC/Epoxy 摻合系統為50/50 有最快的結晶速率。
3.> PC/MWCNT 混成材料系統各組成比例於 POM 下觀察發現 MWCNT 之添加成功地誘導 PC 產生結晶,且結晶型態為馬爾它十字 結晶與Neat PC 相同,表示 MWCNT 只具有成核劑之作用,對 PC 無
結晶結構變化之影響,且由WAXD 與 DSC 分析發現,添加 MWCNT 含量為 3 wt% 有最佳之誘導效果,而隨溫度降低所需成核劑之含量 相對提高,確實提昇PC 之結晶能力。Avrami equation 分析獲得參數 n 與 k,與 Neat PC 比較證明提昇 PC 結晶之能力,且與 Neat PC 具有 相同之 n 值,表示 MWCNT 之添加只具有成核之效用,對結晶結構 無影響。利用Hoffman–Lauritzen Secondary Nucleation Theory 計算 Kg
值,發現MWCNT 含量為 3 wt% 有最低之活化能。 仍比Neat PC 有較好之結晶能力。利用 Hoffman–Lauritzen Secondary Nucleation Theory 計算 Kg值,發現OVMT 含量為 10 wt% 有最低之 活化能。
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