热塑性塑料
材料科学
超临界二氧化碳
戊二醛
淀粉
发泡剂
超临界流体
复合材料
聚氨酯
色谱法
有机化学
化学
作者
Jiali Peng,Xuan‐long Peng,James Runt,Chao-Ming Huang,Kuo‐Shien Huang,Jen-Taut Yeh
摘要
Supercritical carbon dioxide (scCO 2 ) processed thermoplastic starch (scCO 2 a TPS), cellulose nanofiber (CNF) modified scCO 2 a TPS (scCO 2 a TPS 100 CNF 0.02 ) and glutaraldehyde (GA) modified scCO 2 a TPS 100 CNF 0.02 (scCO 2 a TPS 100 CNF 0.02 GA x ) foams were prepared for the first time using scCO 2 as a blowing agent during their foaming processes. The expansion ratio, cell density, moisture resistance, and compressive strength (σ c ) retention properties of each foam series were considerably improved with increasing scCO 2 pressure during the foaming processes. The expansion ratios and cell densities of each scCO 2 a TPS 100 CNF 0.02 GA x foam series were increased considerably to a maximum value, as the GA content approached an optimum value. The optimal scCO 2 11 TPS 100 CNF 0.02 GA 1.6 foam material exhibited a high expansion ratio and cell density at approximately 50 and approximately 8 × 10 8 cells/cm 3 , respectively. Compared with corresponding aged scCO 2 a TPS and scCO 2 a TPS 100 CNF 0.02 foam specimens, considerably better moisture resistance and σ c retention properties were observed for scCO 2 a TPS 100 CNF 0.02 GA x foam specimens, when they were modified with the corresponding optimum GA content. The moisture resistance and σ c retention for optimal prepared scCO 2 7 TPS 100 CNF 0.02 GA 0.4 , scCO 2 9 TPS 100 CNF 0.02 GA 0.8 and scCO 2 11 TPS 100 CNF 0.02 GA 1.6 foam materials improved further with increasing scCO 2 pressure. Possible reasons accounting for the highly expansion ratio, moisture resistance, and σ c retention properties for scCO 2 a TPS 100 CNF 0.02 GA x foams are presented.
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