Thus, using TCS technology to produce FDY instead of using traditional hot godet, has many advantages like shortened process, low energy consumption,.
结论认为 :采用热管拉伸纺丝技术生产涤纶FDY ,替代传统的热导丝辊式生产涤纶FDY的模式 ,具有短流程、低能耗、易维修、少投入、高效益等特点。
Spinning and drawing of PLA filament;
聚乳酸纤维的纺丝与拉伸
Application of the exigency stop system in the drawing line;
急停系统在拉伸线生产中的应用
Modification of after-drawing controlling system of polyester staple fiber;
涤纶短纤维后拉伸控制系统的改造
Development of simulation experiment courseware for material tension and torsion;
材料力学拉伸和扭转模拟实验课件的研发
Molecular Dynamics Simulations on the Melting and Tension Characteristics of C,SiC and BN Nanotubes;
C,SiC和BN纳米管熔化与拉伸特性的分子动力学研究
Molecular dynamics simulation of monocrystalline nickel nano-wire under uniaxial tension;
镍单晶纳米丝单向拉伸的分子动力学模拟
Investigation of slenderizing of wool by stretching;
羊毛拉伸细化加工的试验效果
Effect of stretching process on expanded PTFE membrane porous structure;
拉伸工艺对膨体PTFE薄膜微孔结构的影响
Preparation of stretching porous polytetrafluoroethylene membrane;
聚四氟乙烯拉伸微孔膜的制备
Numerical analysis of tensile fracture of concrete at mesoscale level;
混凝土拉伸断裂的细观数值分析
Acoustic Emission Characteristics of C/SiC Composite during Tensile Test;
C/SiC复合材料拉伸过程的声发射研究
High Temperature Tensile Behavior of Al_2O_3/Cu Composite;
Al_2O_3/Cu复合材料的高温拉伸性能研究