本文研究了以淀粉为原料合成的两种改性淀粉——淀粉甘油醚和阳离子淀粉的合成以及阳离子淀粉的应用性能。
Research on Starch glycerine ether: the synthesis methods of Starch glycerine ether have been studied, and tentatively tested its performance as oil drilling fluid loss additive.
以木质素、25%的甘油共混造粒,造粒后的木质素与淀粉母料、聚乙烯共混挤出制备55%的木质素基塑料。
Lignin and 25% glycerol as plasticizer after pellet fabrication, starch and LDPE were blended and extruded to prepare 55% lignin - based plastics.
描述了以甘油作为增塑剂制造的淀粉塑料的一些性质。
The properties of starch-based degradable plastic with glycerol as the plasticizer have been summarized in present paper.
用甘油作为塑化剂,将糊化淀粉和溶胀纤维按不同配比进行熔融共混来制备完全可生物降解塑料。
Full-biodegradable plastics were prepared by means of melt blending of paste starch with swelled fiber at different blending ratio, with glycerol as plasticizer.
对马铃薯淀粉进行醚化改性,在改性后的淀粉中加入水、PVA、甘油等助剂,制备全淀粉热塑性塑料薄膜。
Modifying potato starch with etherification, adding water, PVA, glycerol and other assisting agent to the modificated starch to prepare all-starch thermoplastic thin film was studied.
提高塑炼温度、延长塑炼时间和增强剪切作用能增强和加速甘油的增塑作用,促进淀粉塑化成为均质材料。
The plastication of glycerol would be reinforced and accelerated by raising processing temperature, elongating processing time and intensifying shear field.
结果表明,菌株S-12-86能够利用麦芽糖、淀粉、甘油和葡萄糖作为碳源,不能利用蔗糖与甘露醇;
Marine strain S-12-86 could utilize maltose, starch, glycerol and glucose as carbon sources but couldn't use mannitol or sucrose;
所述的调和剂是指具有粘合作用的淀粉、甘油等。
以乙酰化改性淀粉为基体,甘油为增塑剂,利用哈克旋转流变仪密炼制备热塑性乙酰化淀粉。
Thermoplastic acetylated starch(TPAS) was prepared with acetylated starch as matrix and glycerol as plasticizer by Haake Rheomix.
动态机械热分析(DMTA)显示热塑性乙酰化淀粉包含富甘油和富淀粉两相,乙酰化淀粉和甘油为部分互溶。
Dynamic mechanical thermal analysis (DMTA) indicated that acetylated starch and glycerol were partially miscible with separated acetylated-starch-rich phase and glycerol-rich phase.
研究人员研究了月桂酸甘油酯与食物成分的相互作用,发现脂肪,淀粉成分可减少它的抗菌效力,但蛋白质对它没有影响。
Researchers studied monolaurin's interaction with food components and found that its antibacterial effectiveness was reduced by fat or starch but was not affected by protein.
反抗的淀粉消费与比较低度的胆固醇和三酸甘油脂有关。
Resistant starch consumption is associated with lower cholesterol and triglyceride levels.
以羟丙基交联淀粉为原料、甘油为增塑剂,采用双螺杆熔融挤出共混技术制备热塑性淀粉。
Thermoplastic starch was prepared with cross-linked hydroxypropyl starch by double screw extruder, glycerol was used as plasticizer.
以羟丙基交联淀粉为原料、甘油为增塑剂,采用双螺杆熔融挤出共混技术制备热塑性淀粉。
Thermoplastic starch was prepared with cross-linked hydroxypropyl starch by double screw extruder, glycerol was used as plasticizer.
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