Chosing modified protein gelatin and blended with chitosan. the compatibility, mechanics performance and thermal stability of the blends system are studied.
选择变性蛋白质明胶与甲壳胺共混。研究了共混体系的相容性、力学性能及热稳定性等性能。
The different compatibility between CE and CTBN caused by various acrylonitrile content in liquid carboxyl terminated rubber also affect the dynamic mechanical and thermal properties of the blends.
由CTBN中不同的丙烯腈含量所引起的CE与CTBN之间不同的相容性还影响了改性体系的动态力学性能和热性能。
Special morphologies of blends of PET/POs can be obtained by self-assemble of POs with various compatibility and reactivity.
通过增容或利用不同的聚合物的相容性、反应性差异可使PET/PO之间“自组装”形成特定的形态结构。
The results of DSC also demonstrated that the compatibilizers made tbe melting points of HDPE reduce, because the copolymers enhanced the compatibility of PVC/HDPE blends.
而DSC的结果表明,增容剂降低了体系中结晶相HDPE的熔点,说明增容剂增加了PVC/HDPE的相容性。
Microphase separated structure of blends has been determined by means of VES. DSC, SEM and TEM. Blood compatibility of the blends was evaluated by column beads method.
采用动态力学谱(VES)、示差扫描量热(DSC)、透射电镜(TEM)和扫描电镜(SEM)等测定共混物的微观结构,采用微球柱法评价共混物的血液相容性。
The compatibility, crystalline structure, transitions and some mechanical properties of PEK-C/PEEK blends were studied by DMS, DSC, X-ray diffraction and Instron.
用挤出方法制备了新型聚芳醚酮(PEK-C)和聚醚醚酮(PEEK)共混物。对共混体系的相容性、转变、结晶结构及力学性能等进行了研究。
The results indicate that the compatibility of blending components may be differentiated by the DTG curves of thermal degradations of blends.
研究结果表明,共混胶乳的相容性可以通过其共混产物的热降解dTG曲线来判定。
The effects of PS with oxazoline functional group (RPS) on the mechanical properties and compatibility of PA 66/PET blends were studied.
研究了(口恶)唑啉官能化聚苯乙烯(RPS)对聚酰胺66/聚对苯二甲酸乙二酯(PA 66/PET)共混物力学性能和相容性的影响。
DSC, WAXD, POM were performed to study the compatibility, crystallization structures, crystallization properties, crystallinity and crystal morphologies of the blends.
通过DSC、WAXD和POM研究了PTT、PBT共混物在非等温条件下的相容性、结晶结构、结晶性能、结晶度及晶体形态。
DSC, WAXD, POM were performed to study the compatibility, crystallization structures, crystallization properties, crystallinity and crystal morphologies of the blends.
通过DSC、WAXD和POM研究了PTT、PBT共混物在非等温条件下的相容性、结晶结构、结晶性能、结晶度及晶体形态。
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