1 / 42

指導教授 : 王振乾 教授 學生 : 符昌中

指導教授 : 王振乾 教授 學生 : 符昌中. Introduction. 聚氨酯 (PU) 具有優異的特性,且經由封閉後,可作為羥基化合物的交聯劑;封閉後的 PU 也有較好的儲存性。 在解封閉的過程中,會有不必要的氣體 ( 封閉劑 ) 揮發較為不環保,應儘量減少環境汙染。 本實驗是藉由不同的封閉劑,降低解封閉的溫度,找出解封閉的反應機制。. Materials. Hexamethylenediisocyanate (HDI) Isophorondiisocyanate (IPDI). Materials. Isopropanol (IP)

lou
Download Presentation

指導教授 : 王振乾 教授 學生 : 符昌中

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:符昌中

  2. Introduction • 聚氨酯(PU)具有優異的特性,且經由封閉後,可作為羥基化合物的交聯劑;封閉後的PU也有較好的儲存性。 • 在解封閉的過程中,會有不必要的氣體(封閉劑)揮發較為不環保,應儘量減少環境汙染。 • 本實驗是藉由不同的封閉劑,降低解封閉的溫度,找出解封閉的反應機制。

  3. Materials • Hexamethylenediisocyanate (HDI) • Isophorondiisocyanate (IPDI)

  4. Materials • Isopropanol (IP) • Bisphenol A (BPA) • 4-Hydroxybenzoic acid ethyl ester (HBEE)

  5. Synthesis Isocyanate in acetone(dried and distilled under N2)four-necked flask blocking agent (aromatic) in acetone the pure blocking agent(aliphatic) After cooling, the solution was precipitated with intense stirring in ice-water. recrystallized in acetone and again dried in vacuo at 40℃.

  6. Synthesis Isocyanate and blocking agent were dried at 50℃ for 4 h under vacuum. The reaction was carried out using an oil bath at a temperature of 100 ℃. The end of the reaction was detected by FTIR.

  7. Results and discussion deblocking Tm It can be seen in the DSC curve that the endothermic reaction due to the deblocking starts directly after the melting (peak maxima of melting at 117 and 133 ℃ for HDI/HBEE). Comparison of the signals obtained by STA-MS of the system HDI/HBEE: (−) DSC; (- - - -) DTG; (--)56 amu; (--) 121 amu.

  8. Results and discussion The first deviation in the DTG curve and the first signs of mass numbers were found at about 150 ℃. This value is higher than the value determined by DSC or FTIR because the volatility of the components is not given at the start of deblocking reaction.

  9. Results and discussion HDI/HBEE δNH (urethan) at 1536 cm-1 C=O (allophanate)at 1690 cm-1 Temperature dependent FTIR spectra of the deblocking reaction of the urethane model compound HDI/HBEE in the range between 1850 and 950 cm-1.

  10. Results and discussion HDI/HBEE The new isocyanate absorption band at 2276 cm-1 Two new bands at 2336 and 2369 cm-1 were found. Temperature dependent FTIR spectra of the deblocking reaction of the urethane model compound HDI/HBEE in the range between 2500 and 2100 cm-1.

  11. Results and discussion HDI/HBEE Integral absorbances of isocyanate and carbon dioxide vibration during the deblocking reaction of the urethane model compound HDI/HBEE studied by FTIR in dependence on time during the non-linear heating:( ̶ )NCO (2303-2200 cm-1); (- - - -) CO2 (2349-2307 cm-1); (-··-··) temperature.

  12. Results and discussion HDI/BPA Two new bands at 2336 and 2369 cm-1 were found. The new isocyanate absorption band at 2276 cm-1 Temperature dependent FTIR spectra of the deblocking reaction of the urethane model compound HDI/BPA in the range between 2500 cm-1 and 2100 cm-1.

  13. Results and discussion IPDI/IP Two new bands at 2336 and 2369 cm-1 were found. The new isocyanate absorption band at 2276 cm-1 Temperature dependent FTIR spectra of the deblocking reaction of the urethane model compound IPDI/IP in the range between 2500 and 2100 cm-1.

  14. Results and discussion IPDI/IP Integral absorbances of isocyanate and carbon dioxide vibration during the deblocking reaction of the urethane model compound IPDI/IP studied by FTIR in dependence on time: ( ̶ ) NCO (2283±2230 cm-1); (- - - -) CO2 (2349±2307 cm-1); (-··-··) temperature.

  15. Results and discussion The detection of mass number 121 (HBEE) at lower temperatures than of 110 (IPDI) and also the shift of maximum temperature to lower values indicate that this system contains unreacted HBEE resulting from the HBEE excess during synthesis which could not be removed completely after synthesis Comparison of the signals obtained by STA-MS of the system IPDI/HBEE: (−) DSC; (- - - -) DTG; (--)56 amu; (--) 121 amu.

  16. Results and discussion Comparison of DSC curves obtained by STA±MS of HDI and IPDI masked with HBEE and BPA.

  17. Conclusions • 經由FT-IR和DSC所得結果,HDI解封閉溫度較IPDI低。 • 利用STA/MS和FT-IR所得測試的差異,是受異氰酸鹽和解封閉劑的揮發而影響。 • STA/MS靈敏度較FT-IR及DSC高。

  18. 封閉型異氰酸酯

  19. MDI-DMP-0629-RE • 使用四頸瓶熔融聚合 • 溶入DMF中,再以乙醇析出。

  20. MDI-DMP-0629-RE

  21. MDI-DMP-0629-RE

  22. MDI-DMP-0629-RE

  23. MDI-DMP-0629-RE-heat

  24. MDI-NMA-0705-RE • 以DMAC為溶劑,NMA滴入DMAC/MDI在四頸瓶中反應 • 溶入DMF中,再以乙醇析出。

  25. MDI-NMA-0705-RE

  26. MDI-NMA-0705-RE

  27. MDI-NMA-0722-RE • 以DMAC為溶劑,在四頸瓶中反應 • 先將NMA與DMAC混合,再加入MDI • 溶入DMF中,再以乙醇析出。

  28. MDI-NMA-0722-RE

  29. MDI-NMA-0722-RE

  30. MDI-NMA-0726-RE • 以DMAC為溶劑,倒入MDI,再滴入NMA,在四頸瓶中反應 • 溶入DMF中,再以乙醇析出。

  31. MDI-NMA-0726-RE

  32. MDI-NMA-0726-RE

  33. MDI-NMA-0726

  34. MDI-NMA-0726

  35. MDI-NMA-0727-RE • 以DMAC為溶劑,倒入MDI,再滴入NMA,在分離式四頸瓶中反應 • 溶入DMF中,再以乙醇析出。

  36. MDI-NMA-0727-RE

  37. MDI-NMA-0727-RE

  38. MDI-NMA-0727

  39. MDI-NMA-0728-RE • 以DMAC為溶劑,倒入MDI,再滴入NMA,在分離式四頸瓶中反應 • 溶入DMF中,再以乙醇析出。

  40. MDI-NMA-0728-RE

  41. MDI-NMA-0728-RE

  42. MDI-NMA-0728

More Related