Alloy of polyamide 6 and modified bismaleimide was prepared by melt blending to improve its thermal properties.
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。
The method to generate compatibilizers "insitu" during melt blending in extruder using reactive polymers or functionalized polymers are described.
阐述了利用挤出机通过各种反应性聚合物或官能化聚合物在熔融共混过程中就地形成共聚物增容剂的方法。
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.
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。
Full-biodegradable plastics were prepared by means of melt blending of paste starch with swelled fiber at different blending ratio, with glycerol as plasticizer.
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。
The lamellar structure of montmorillonite makes it possible to intercalate PA 6 into the nanocomposites under the action of mechanical force during the melt blending process.
蒙脱土特殊的层状结构使得利用熔融共混在机械力的作用下插层到纳米级复合材料成为可能。
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.
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。
Thermoplastic polyurethane elastomer(TPU) with chlorinated polyethylene (CPE) and CPE/HPVC (high molecular weight PVC) as modifiers was studied systematically by melt blending.
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。
The results show that the block PET-PET(PHB60) copolycondensate was obtained duto in melt blending exists transesterification reaction between molecular chains of PET and PET(PHB60).
结果表明PET和PET(PHB60)在熔融时可发生分子链间酯交换,得到有一定嵌段性的共缩聚物;
Oral dosage forms can be prepared by melt-blending the components described herein and filling gelatin capsules with the formulation.
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。
PLLA/starch composites were prepared by microwave melt-blending method from L-lactic acid (LLA) and starch.
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。
Extrusion blending method can process a stable nanometer compounding material through melt-mixing polymer and nanometer particle.
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。
The influences of blending ratios, EPDM's quantity, PP melt - extruded grafting copolymers, unsaturated polar monomers and plasticizer on the mechanical properties of the blends were investigated.
考察了共混比、不饱和极性单体、PP熔体挤出接枝物、增塑剂及EPDM用量对共混物力学性能的影响。
The effect of blending time on the properties of reactive PP/EPDM alloy was studied via the analysis of gel content, mechanical properties, melt flow behaviour and morphology.
通过凝胶含量测定、力学性能试验以及熔体流动性能测试等手段,研究了共混(反应)时间对密炼法和挤出法反应性PP/EPDM共混合金性能的影响及其机理。
The effect of blending time on the properties of reactive PP/EPDM alloy was studied via the analysis of gel content, mechanical properties, melt flow behaviour and morphology.
通过凝胶含量测定、力学性能试验以及熔体流动性能测试等手段,研究了共混(反应)时间对密炼法和挤出法反应性PP/EPDM共混合金性能的影响及其机理。
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