1) oriented cutting
定向切割
1.
In order to cut and obtain accurate different orientation Ni-base single crystal superalloys,a method based on an accurate determination of orientation of single crystal superalloy with a conventional diffractometer by asymmetrical X-ray scanning mode was developed,and then oriented cutting(001) and(011) crystalline planes of the alloy was carried out on the base of accurrate orientation of and .
为了对镍基单晶高温合金进行不同晶面的定向切割,开发了用普通的X射线衍射仪,通过非对称X射线衍射技术对合金的[001]及[011]取向进行精确测定以及在此基础上对(001)和(011)晶面进行定向切割的方法。
2) subdivision of tangent direction of immobility
固定切向分割
3) Double Directional Cutting
双向切割
4) ordinate cutting
纵向切割
1.
The ordinate cutting,which means that the laser-trimming path is parallel to the current flow,increases the resistance slowly.
激光调阻中激光束平行于电流方向的纵向切割对片式电阻的阻值变化影响较小,掌握其规律并将其应用于调阻过程中能够为提高激光调阻精度提供控制依据。
2.
The laser-trimming path that is parallel to the current flow, called ordinate cutting, increases the resistance slowly.
激光在片式电阻上的纵向切割对阻值变化影响较小 ,合理设计其长度可以提高激光调阻精度及保证阻值稳定性。
5) convention cutting
逆向切割
6) guided cutting
导向切割
补充资料:切向力
物体作曲线运动时,在其轨道切线方向上所受到的力。它使物体获得切向加速度。如平抛运动中,重力的切向分力将产生切向加速度,使物体的切向速度逐渐增大。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条