| 1. | Research on carbon black polyurethane blend melt spinning conductive fibers
聚氨酯共混导电纤维熔融纺丝的研究 |
| 2. | Melt spinning device
熔融纺丝装置 |
| 3. | Formation and crystallization behavior of nanocrystal amorphous in melt spun al87ni10zr3 alloy
3纳米非晶材料的形成及其晶化行为 |
| 4. | Carbon black was blended into thermoplastic polyurethane , the electrical conductive fiber was obtained by melting spinning
摘要将导电炭黑混入到热塑性聚氨酯中,经熔融纺丝制得导电纤维。 |
| 5. | It was suitable for melt spinning that temperature was 100 ~ 150 , revolving speed was 10 ~ 15r / min and drawing speed was 2 ~ 5m / min
通过研究发现温度是影响熔融纺丝的关键因素,熔融纺丝较适宜的条件是:温度为100 150 ,挤出机转速为10 15r min ,拉伸速率为2 5m / min 。 |
| 6. | It is the first time to get phbv fiber by melt spinning in china . and the changes of fiber crystallization structure and orientation structure under force were studied
并在国内首次通过熔融法制备了phbv纤维,首次论证了纤维结晶结构的变化及其在外力作用下取向结构的变化。 |
| 7. | In this paper , high performance x - ray developing filament were fabricated from thermoplastic polyurethane ( tpu ) filled with inorganic particles of barium sulfate ( baso4 ) by melt spinning
本课题运用无机粒子硫酸钡( baso _ 4 )填充改性热塑性聚氨酯( tpu ) ,采用熔融纺丝技术纺制高性能x射线摄影纤维。 |
| 8. | Pdlla / ha composite fibers were produced by melt spinning , and the choices of the process parameters such as temperature , revolving speed and drawing speed etc were discussed
选用熔融纺丝法制备pdlla ha复合纤维,探索了熔融纺丝过程中温度、挤出机转速、拉伸速率、加料速度和冷却速率等一系列工艺参数的选择及其影响因素。 |
| 9. | In this paper , exhaustive studies on the mechanism of draw - interfacial phase separate micro - void , pan / pu blending system , melt spinning technology of pan / pu hollow fiber membrane , and the structure - property of pan / pu hollow fiber membrane were fulfilled
本文对拉伸相界面分离成孔机理, pan pu共混体系, pan pu中空纤维膜的熔融纺丝-拉伸致孔工艺及pan pu共混膜的结构和性能作了研究和探讨。 |
| 10. | The spinneret material used in melt spinning , the spinneret shape , the rheological behaviour of the melt in orifice , the spinneret microhole geometric important indexes , the orifice arrange mode , the orifice opened scope and distance , the spinneret thickness were introduced in detail
摘要介绍了熔融纺丝所用喷丝板的材质、喷丝板形状、熔体在喷丝孔中的流变特征,喷丝板微孔几何形状重要参数,喷丝孔排列方式,开孔范围及孔间距,喷丝板的厚度。 |
