| 1. | Stainless steel fiber sintering medium
烧结不锈钢纤维毡 |
| 2. | Spinning technology discussion about stainless steel fiber blended yarn
不锈钢纤维混纺纱线的工艺技术探讨 |
| 3. | Several factors , which influenced electromagnetic parameters of stainless steel fiber , were discussed
不锈钢纤维铜复合体界面处存在cu原子的扩散反应。 |
| 4. | In this paper , the effect of heat treatment on the magnetic properties of s s fibers was studied
对不锈钢纤维进行退火处理,以探索材料成分、热处理工艺与相结构和纤维磁性能的关系。 |
| 5. | With the reducing of s s fibers " diameter , the axial conductance rate of the fiber was reduced , the resistance increased
随着奥氏体不锈钢纤维丝径的减小,纤维的轴向电导率降低,电阻增加。 |
| 6. | The fabrics containing much stainless steel fiber , distributing evenly and using stainless steel filament , had excellent antistatic performance
不锈钢纤维质量分数增加、均匀分布、采用不锈钢长丝具有更好的抗静电性能。 |
| 7. | The results showed that the magnetism change of s s fibers was caused by many factors , however , the phases change , brought by internal - stress , was a reason of the high magnetism of fiber
研究发现:奥氏体不锈钢纤维化过程中磁性变化是多种因素共同作用的结果,应力诱发产生相变,是纤维强磁性的原因。 |
| 8. | In this paper , the magnetic , electric and mechanics performance change laws of the stainless steel fibers ( sm : ss fiber ) , which were made through bundle drawing , were systematical studied
本文以集束拉拔制备的奥氏体不锈钢纤维为对象,系统地研究了纤维在制备过程中电性、磁性以及力学性能变化规律。 |
| 9. | The austenitic stainless steel fiber bindles and fiber / cu composite were investigated . ms of the s s fiber / cu composite is much better than that of s s fiber bindles in some temperature range
在对304不锈钢纤维铜复合体磁性研究,实验中发现:在一定的温度范围内, 304不锈钢纤维铜复合体的s大于对应去除铜层的纤维束。 |
| 10. | Due to the diversity and complexity of the stainless steel fibre dregs concrete ingredients which influence each other , it is difficult to describe the relationship between the mechanical properties of concrete and a single mixing effect factor
由于不锈钢纤维渣混凝土组分复杂多样,各组分之间又互相影响,故其力学性能很难用单因素的回归关系加以描述。 |
