将各组分按所述量混合后熔融共混而制得本发明聚乙烯组合物。
All components are mixed according to the parts by weight and then melted to obtain the polyethylene composition.
将尼龙6与改性双马来酰亚胺熔融共混形成合金以提高其热稳定性能。
Alloy of polyamide 6 and modified bismaleimide was prepared by melt blending to improve its thermal properties.
口服剂型可以通过熔融共混本文所述的成分并用该制剂填满胶质胶囊来制备。
Oral dosage forms can be prepared by melt-blending the components described herein and filling gelatin capsules with the formulation.
以L-乳酸和淀粉为原料,采用微波熔融共混法,制备出PLLA/淀粉复合材料。
PLLA/starch composites were prepared by microwave melt-blending method from L-lactic acid (LLA) and starch.
通过熔融共混法制备了POM/COPA共混物,用毛细管流变仪研究了其流变特性。
Rheological characteristics of POM/COPA blends prepared by melting blending was studied with capillary rheometer.
以CPE和CPE/HPVC为改性剂,用熔融共混的方式对TPU的共混体系进行了系统的研究。
Thermoplastic polyurethane elastomer(TPU) with chlorinated polyethylene (CPE) and CPE/HPVC (high molecular weight PVC) as modifiers was studied systematically by melt blending.
利用热塑性淀粉(TPS)与聚己内酯(PCL)熔融共混并挤出可用来制备完全可生物降解的塑料。
Thermoplastic starch (TPS) and polycaprolactone (PCL) were melt blended and extruded to prepare truly biodegradable plastics.
通过熔融共混的方法制得甘油含量不同的TPS样品,研究了甘油含量对材料的结构与性能产生的影响。
The TPS materials with different glycerol contents were produced by melt blending method. The influences of the glycerol contents on the structure and properties were studied.
熔融共混法加工过程中的混合温度、转速、时间对材料的成型和性质有着显著的影响,为得到最好的实验工艺。
The mechanical properties of materials were characterized and Effect of different synthesis conditions to mechanical property such as temperature, rotation and time were investigated in detail.
由于TLCP和PET在热力学上不相容,单纯用熔融共混法,以TLCP来对PET进行原位复合增强效果不明显。
Because PET and TLCP are not miscible in thermodynamics, the effect that only using TLCP to "In-situ" reinforce PET by melt blending is not clear.
通过熔融共混制备了POE及其马来酸酐接枝物增韧PTT 共混物,研究了增韧PTT共混物的结晶性能、力学性能和形态。
PTT blend toughened by POE and POE-g-MAH were prepared by melting blending, and the morphology, crystallization properties and mechanical properties were studied.
用熔融共混法制备出聚丙烯基纳米复合材料,研究了形状和大小不同的纳米介孔MCM - 41填充物对聚丙烯基纳米复合材料的拉伸性能与热性能的影响。
The influences of the different shape and the different size of nano-sized mesoporous MCM-41 on the tensile properties and thermo-stability were investigated.
通过碱金属离子与聚氧化乙烯(PEO)的络合配位制备了不同比例的PEO聚电解质,将PEO聚电解质与尼龙6熔融共混挤出,制备抗静电尼龙6复合材料;
Nylon 6/Polyethylene oxide (PEO) polyelectrolyte composites with different molar ratio of alkali metal ion and PEO polymer unit were prepared by means of complexation reaction.
采用聚丙烯切片、抗菌母粒共混,制成高熔融指数的抗菌高速纺专用料进行纺丝。
With PP chips and antibacterial matrices blent, the antibacterial special raw material with high melt index is prepared for speed spinning.
用光散射在线采集与分析方法完成了熔融混炼过程中非相容高分子共混物的形态结构分析。
The on-line analysis on morphology has been completed for immiscible polymer blends during mixing and melting process.
通过DSC上(熔融峰、结晶峰)呈现单峰确定了此共混体系在片晶水平上共晶;
Only a single melting or cooling peak was found in DSC curves for all blends, showing cocrystalline in patch-crystal level.
酯交换和相容是聚酯共混物熔融时相互关联的两个过程。
Both events are interrelated in the molten state of polyester blends.
实验结果表明该偶联剂界面层的形成对PPS/PES共混物的熔融、结晶行为以及抗冲击性能具有深刻的影响。
Theformation of this interphase had strong effect on the melting and crystallization behaviour of PPS/PES blend, and the impact strength of PPS/PESblend was raised.
挤出共混法通过熔融混炼聚合物和纳米微粒可加工成稳定的纳米复合材料。
Extrusion blending method can process a stable nanometer compounding material through melt-mixing polymer and nanometer particle.
研究了PA6/PTFE和PA66/PTFE共混物的熔融过程的热学性能、动态力学性能和吸水前后的静态力学性能。
The melting temperature, melting heat, static and dynamic mechanical properties of PA6/PTFE blends and PA66/PTFE blends are experimentally investigated in this paper.
结果表明,PC/PET共混体系在熔融过程中有酯交换反应发生,反应程度与组分含量、熔融温度和共混时间有关。
The result shows, the ester exchange reaction did take place in PC/PET melting blend system, the extent of exchange reaction depends on content of the components, mixing temperature and mixing time.
冷结晶温度和熔融温度与共混比例、共混时间、温度等因素密切有关。
The blending composition, temperature and time have a dramatic effect on the cold crystallization temperature (Tc) increases and the melting Tmperature (t m).
采用PP熔融接枝MAH和不饱和羧酸混合单体通过反应挤出增容PP/PA6共混物,研究了增容共混物两相间的界面相互作用。
The interfacial interaction of compatibilized PP/PA6 blend prepared by melt grafting of PP with MAH and other unsaturated acid has been studied.
这对高聚物是一完全互溶的共混体系,当共混体系处在熔点和相混合温度之间时,同时存在结晶的熔融相和无定形的相容共混相。
When the temperature of the blend is between melting-point and phase-mixing point, both melting-crystal phase and amorphous miscible phase are present.
PTFE共混物的熔融温度随PTFE含量的增加而升高,熔融焓却随PTFE含量的增加而降低。
The melting temperature of PA6/PTFE blends increases with PTFE content, while the melting enthalpy decreases with PTFE content.
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.
应用推荐