化学学报 ›› 2004, Vol. 62 ›› Issue (12): 1180-1184. 上一篇    

研究简报

热塑性淀粉中氢键及其对性能的影响

马骁飞, 于九皋   

  1. 天津大学理学院化学系, 天津, 300072
  • 投稿日期:2003-11-24 修回日期:2004-01-05 发布日期:2014-02-17
  • 通讯作者: 于九皋,E-mail:edwinma@eyou.com;Fax:022-27403475 E-mail:edwinma@eyou.com

Hydrogen Bond of Thermoplastic Starch and Effects on Its Properties

MA Xiao-Fei, YU Jiu-Gao   

  1. School of Science, Tianjin University, Tianjin 300072
  • Received:2003-11-24 Revised:2004-01-05 Published:2014-02-17

热塑性淀粉中的氢键对热塑性淀粉的性能有决定性的作用.本文利用红外光谱分析甘油或甲酰胺塑化热塑性淀粉中塑化剂和淀粉间的氢键形成情况,发现在淀粉中,与塑化剂形成氢键的主要是C-O-C基团中的氧原子和C-O-H基团中的氢原子;而且过量的塑化剂之间会形成氢键,减弱塑化剂与C-O-C中氧原子的氢键作用.与甘油相比,甲酰胺可以和淀粉形成更稳定的氢键.X-ray衍射研究了氢键对两种热塑性淀粉在不同湿度环境下的回生性能的影响.结果表明甲酰胺可以有效抑制淀粉回生.热动态力学分析(DMTA)研究发现,氢键使甲酰胺塑化热塑性淀粉的玻璃化转变温度更低.氢键使甲酰胺塑化热塑性淀粉强度和杨氏模量低,但伸长率和断裂能大.

关键词: 热塑性淀粉, 甲酰胺, 甘油, 氢键

The hydrogen bond played an important role in the properties of thermoplastic starch. In this paper, we analyzed the hydrogen bond interaction between plasticizer and starch in glycerol plasticized thermoplastic starch (GPTPS) and formamide plasticized thermoplastic starch (FPTPS), and thought formamide could form more stable hydrogen bond with starch than glycerol. Fourier transform infrared (FT-IR) spectroscopy revealed that the oxygen of C—O—C group participated in the hydrogen bond with plasticizers, and the hydrogen of C—O—H group in starch formed the hydrogen bond with plasticizers rather than the oxygen of C—O—H group. The excessive plasticizers would form hydrogen bond within each other and weaken the interaction between plasticizers and starch. The effect of plasticizers on the properties of thermoplastic starch (TPS) was also investigated. Because the hydrogen bond between plasticizer and starch in FPTPS was stronger than the interaction in GPTPS, the properties of two TPSs were very different. At three relative humidities (RH=0%, 50%, 100%), the effect of hydrogen bond on the retrogradation of two TPSs was studied by X-ray diffraction. Formamide could effectively restrain the starch retrogradation. Dynamic mechanical thermal analysis (DMTA) illustrated that the stronger hydrogen bond decreased more the Tg of FPTPS. Mechanical testing showed that compared with GPTPS the tensile strength and Youngs modulus of FPTPS were lower while elongation at break and energy break were higher.

Key words: thermoplastic starch, formamide, glycerol, hydrogen bond