1 / 17

指導教授:王振乾 教授 學 生:蕭詠方

指導教授:王振乾 教授 學 生:蕭詠方. Introduction. PLLA 與 PES 均為生物可降解半結晶聚酯,其結構式分別為 -[CH(CH 3 )COO] n - 及 -[OCH 2 CH 2 O 2 CC 2 H 4 CO] n - PLLA 的機械性質差 ( 硬、脆 ) 、結晶速率慢,因此限制了其應用; PES 具良好的機械性質,特別是斷裂延伸率。因此,期盼混摻 PES 後能改善 PLLA 的機械性質及結晶速率。. Experimental. PLLA. PES. (Mw=177,000). (Mw=213,000). 溶於氯仿.

fifi
Download Presentation

指導教授:王振乾 教授 學 生:蕭詠方

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 指導教授:王振乾 教授 學 生:蕭詠方

  2. Introduction • PLLA與PES均為生物可降解半結晶聚酯,其結構式分別為-[CH(CH3)COO]n- 及 -[OCH2CH2O2CC2H4CO]n- • PLLA的機械性質差(硬、脆)、結晶速率慢,因此限制了其應用;PES具良好的機械性質,特別是斷裂延伸率。因此,期盼混摻PES後能改善PLLA的機械性質及結晶速率。

  3. Experimental PLLA PES (Mw=177,000) (Mw=213,000) 溶於氯仿 溶於氯仿 PLLAsolution PESsolution PLLA/PES 100/0 80/20 60/40 40/60 20/80 0/100 置入培養皿 室溫下(一天)蒸發掉溶劑 真空烘箱50 ℃(三天)溶劑完全移除

  4. Results and discussion 熔至190 ℃ 急速冷卻至-70 ℃ 無定型態 20 ℃/min 升溫 Tg Tch Tm PLLA PES Tch Tg 混摻PES後可提升PLLA的結晶度 PLLA與PES為不可溶混 Tm Fig. 1. DSC traces of PLLA/PES blends at 20 ℃ /min after quenching from the melt at 100 ℃ /min.

  5. Results and discussion 20 ℃ /min 升溫 PLLA會抑制PES結晶 PLLA Tm PES Tm Fig. 2. Melting behavior of PLLA/PES blends at 20 ℃ /min for the as castsamples.

  6. Results and discussion Fig. 3. Spherulitic morphology of neat PLLA (same magnification, bar =100 mm) at different crystallization temperatures: (a) 110, (b) 115, (c) 120, and(d) 125 ℃.

  7. Results and discussion Maltese cross Fig. 4. Spherulitic morphology of neat PES (same magnification, bar =100 mm) at different crystallization temperatures: (a) 55, (b) 60, (c) 65, and (d) 70 ℃.

  8. Results and discussion 2.27 μ m/min PES球晶成長速率較PLLA快 線性成長 接觸到其它球晶 接觸到其它球晶 0.973 μ m/min Fig. 5. Temperature dependence of spherulitic growth rates of neat PLLA and neat PES.

  9. Results and discussion 5 ℃ /min 降溫 混摻20%的PES ,會抑制PLLA的結晶;混摻40%以上的PES ,PLLA結晶峰消失。 62.9 ℃ PLLA/PES混摻,些微抑制PES的結晶,但仍保有PES相的結晶。 57.5 ℃ PES含量太少 94.2 ℃ 99.8 ℃ (Tc) Fig. 6. DSC traces of PLLA/PES blends cooled from the melt at 5 ℃ /min.

  10. Results and discussion Isothermalcrystallization PLLA/PES混摻,發現PLLA結晶速率較純PLLA快 Fig. 7. (a) Plots of relative crystallinity of PLLA crystallized at 100 ℃ versuscrystallization time for PLLA/PES blends

  11. Results and discussion Avrami equation n:成核機制 k:結晶速率常數 Fig. 7.(b) the Avrami plots of PLLA/PES blends crystallized at 100 ℃.

  12. Results and discussion isothermal crystallization of PLLA from the melt at 100 ℃ and the isothermal crystallization of the PES at 67.5 ℃ from the liquid phase in the presence of previously crystallized PLLA. 混摻PES後,不改變PLLA的結晶機制 混摻PES後,提升PLLA的結晶速率 相分離區域提供了有利的結晶成核點 PES的結晶型態不受混摻PLLA後影響 隨PLLA含量增加,PES結晶速率變慢 相分離區域存在PLLA的結晶

  13. Results and discussion PLLA與PES混摻後會各自結晶,不會改變晶體結構。 16.31 ° (PLLA) 18.55 ° (PLLA) 20.8 ° (PES) 23.23 ° (PES) Fig. 8. WAXD patterns of PLLA/PES blends.

  14. Results and discussion 混摻PES進而改善PLLA的脆性 高模數、脆性材料 Fig. 9. Tensile testing results of PLLA/PES blends.

  15. Results and discussion (a) 純PLLA– 表面光滑 (脆性斷裂) (b) PLLA/PES (80/20) –(不可溶混)PES均勻分散於PLLA基材中 (c)(d)(e) 增加PES含量 兩連續相 有效提升PLLA的機械性質 (脆 延展性) (f) 純PES– 表面粗糙 (韌性) Fig. 10. SEM images of the fracture surfaces of PLLA/PES blends after tensile testing: (a) 100/0, (b) 80/20, (c) 60/40, (d) 40/60, (e) 20/80, and (f) 0/100.

  16. Conclusions • PLLA/PES混摻分別顯示其各自熔點 (Tm) ,表示為不可溶混系統。 • 熔融淬火樣品,混摻PES可提升PLLA的結晶度,而PES結晶度變化不大。 • 恆溫結晶結果發現,混摻後,PLLA與PES兩者的結晶機制不改變;隨PES含量增加,PLLA的結晶速率加快,而PES結晶速率變慢。

  17. Conclusions • 由拉伸測試發現,混摻PES 能有效提升PLLA的斷裂延伸率且仍保有相當的模數。 • SEM顯示,PLLA/PES混摻,由脆性斷裂轉變為韌性斷裂。

More Related