In terms of the PA6 + 60% GF wear and corrosion properties of material, we choose the special materials and special gate structure to prolong system longevity.
针对PA6+60%GF的材料的磨损和腐蚀特性,我们的热流道系统选用了特殊的材料及特殊的浇口结构,以保证系统的使用寿命!
The average diameter of PA6 fibrils decreased with the increasing draw rate, and the diameter distribution of fibrils became narrow, the mechanical properties were improved.
发现随牵引速度的提高,PA 6微纤的平均直径变小,尺寸分布更均匀,力学性能也随之提高。
The influences of such factors as PA6 content and polymerization degree, deformation stretch and recovery temperature, recovery times on the shape memory function were studied.
研究了PA6含量与聚合度、形变拉伸温度与形变回复温度及回复次数等因素对形状记忆功能的影响。
The effect of vacuum degree on PA6 production was also discussed.
还讨论了真空度的大小对PA6生产的影响。
The results showed the use of PA6 upgraded the mechanical properties and thermal stability of the composite, and PA6 had obvious synergistic effect on the system.
结果表明:PA6的加入提高了该体系的力学性能和热稳定性,并对该无卤阻燃体系具有良好的协效作用。
And then, a few problems for the further research in PA6 polymerization process are pointed out.
在此基础上,提出了PA 6聚合反应工程研究中尚有待开展的几点建议。
The long glass fiber reinforced PA6 was prepared by using a new melt impregnation process. Influences of the glass fiber content and distribution to the composite were studied.
采用一种新的熔融浸渍工艺制备了长玻纤增强尼龙6复合材料,研究了玻纤含量、玻纤长度分布对复合材料力学性能的影响。
The design of PA6 prepolymerization reactor was discussed from the aspects of equipment and technological process.
从设备与工艺两方面剖析了PA6生产前聚合反应器的设计。
The effect of compatilizer and toughener on the properties of modified PA6 /PA66 is studied.
研究了相容剂、增韧剂对改性尼龙6/尼龙66合金性能的影响。
Polyether amide thermoplastic elastomer (TPAE) was synthesized via two-step process by using PA6 oligomer and PEG as primary material and a fixed amount of crosslinking agent.
采用两步法工艺路线,以PA6齐聚物、聚醚和少量交联剂为原料共聚合成聚醚酰胺热塑性弹性体(TPAE)。
Polyether amide thermoplastic elastomer( TPAE) was synthesized via two-step process by using PA6 oligomer and PEG as primary material and a fixed amount of crosslinking agent.
采用两步法工艺路线,以PA6齐聚物、聚醚和少量交联剂为原料共聚合成聚醚酰胺热塑性弹性体(TPAE)。
Both the feasibility and the processing result of vacuum polymerization finishing process for PA6 fiber were discussed.
分析探讨了采用减压后聚合工艺生产pa6的可行性及实施效果。
The melting temperature, melting heat, static and dynamic mechanical properties of PA6/PTFE blends and PA66/PTFE blends are experimentally investigated in this paper.
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 fracture morphology of PC, PA6, LDPE is analyzed by using scanning electron microscopy (SEM), and the fracture cause, fracture process and fracture morphology are discussed respectively.
利用扫描电子显微镜观察分析了聚碳酸酯、尼龙6、低密度聚乙烯的微观断裂行为,并对其断裂起因、断裂过程及断裂形态进行了讨论。
Nowadays, it has been the main research hot point to exploit and research of ultratoughness and high-powered PA6, PA66 blends by adding polyolefin elastomer orusing nano-technology.
特别是通过聚烯烃弹性体、纳米级材料方法研制开发高韧性、高性能化PA6、A66 合金,是目前增韧PA6、PA66的主要研究方向。
The formulations, mold selection and technical conditions for preparing the flame-retardant & reinforced PA6 and PA66 are studied.
探讨了阻燃增强PA6及阻燃增强PA66的制备配方、模具选择及工艺条件。
The results showed that the use of PA6 improved the apparent viscosity, mechanical properties and thermostability of IFR-PP.
结果表明:PA6的加入提高了IFR PP的表观粘度、力学性能和热稳定性。
PA6/easy hydrolytical polyester(EHDPET) blend fiber with EHDPET as disperse phase was prepared by blend spinning.
将PA6和易水解聚酯(EHDPET)以适当比例混合,可制得以EHDPET为分散相的共混纤维。
The processability of rare-earth magnetic materials with 7 wt% PA6 was studied by using HAAKE torque rheometer.
应用HAAKE转矩流变仪,研究了尼龙6质量分数为7%时,稀土磁性塑料的加工工艺性能。
Composite was prepared with melt dipping that PA6 enhanced with the long glass fibre.
采用熔体浸渍工艺制备长玻纤增强PA 6复合材料。
The effect of surface isocyanation of carbon fiber on the melting behavior of PA6 in CF/PA6 composites was studied by Differential Scanning Calorimetry(DSC).
利用差示扫描量热仪(DSC)研究了炭纤维(CF)表面异氰酸酯化改性后阴离子接枝尼龙6(PA6)对CF/PA6复合材料中PA6的多重熔融行为的影响。
Flame retarded fiberglass reinforced PA66 and PA6 were prepared by adding melamine polyphosphate (MPP).
采用聚磷酸三聚氰胺(MPP)分别对玻纤增强的PA66和PA6进行了阻燃。
The interfacial interaction of compatibilized PP/PA6 blend prepared by melt grafting of PP with MAH and other unsaturated acid has been studied.
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 crystallization behavior of rare-earth luminous polycaprolactam(PA6) prepared through in-situ polymerization was investigated by DSC.
以原位复合方法合成的稀土发光聚己内酰胺(PA6)为研究对象,用差示扫描量热仪(DSC)研究了其结晶行为。
Material could be steel, stainless steel, aluminum, copper, nodular casting iron and PA6.
材料可钢,不锈钢,铝,铜,球墨铸铁铸造生铁和锦纶。
It can improve mechanical performance by adding PPg - (St-MAH) to PP and PA6 blend systems.
加入到PP和PA 6共混体系可以改善PP和PA6的相容性和提高机械性能。
It shows that the processing and rheological properties of PA6 are obviously improved with the addition of a small amount of PAMAM. PAMAM can act as rheological modifier and processing aid of PA6.
结果表明:在PA 6中加入少量的PAMAM树形分子即可显著提高PA的流变性能和加工性能,PAMAM可作为PA6的流变学改性剂和新型加工助剂。
The rate of dye-uptake of modified PET is improved, but is still far lower than PA6.
改性聚酯对酸性染料的上染率有一定的提高,但与PA6的上染率相比仍有差距。
The rate of dye-uptake of modified PET is improved, but is still far lower than PA6.
改性聚酯对酸性染料的上染率有一定的提高,但与PA6的上染率相比仍有差距。
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