1) angular misalignment loss
角度偏差损耗
2) angle deviation
角度偏差
1.
Through comparing the image of the sample with the stand- ard one,the angle deviation and position deviation was obtained.
通过对摄取到的实际套准标记图像和标准图像进行比较,输出其角度偏差值和位置偏差值,以此作为自动套准控制系统中时印刷机套准调节的依据,并对一种"米"形套准标记的识别和检测进行了分析。
2.
The model with angle deviation was detail discussed, correct model could be made by exactly angle measurement.
分析了基于球杆仪的数控机床误差补偿测试原理 ,讨论了由于角度偏差引起的误差 ,指出基于球杆仪误差补偿模型的缺陷 ,提出采用该种模型必须精确测量角度
3.
Through comparing the image of the sample with the stand- ard one,the angle deviation and position deviation was obtained.
通过对摄取到的实际套准标记图像和标准图像进行比较,输出其角度偏差值和位置偏差值,以此作为自动套准控制系统中对印刷机套准调节的依据,并对一种"(?)"形套准标记的识别和检测进行了分析。
3) angle windage
角度偏差
1.
The effect of angle windage on the linking intensity of interference fits;
角度偏差对过盈联接强度的影响
2.
On the basis of analyzing the pressure change aroused by angle windage on linking length, this thesis presents a math model of circle moment for interference fits in the dissimilarity of generatrix angle, then states the effects opposite circle moment because of angle windage, thus, to provide reference for the design of taper interference fit
本文在分析母线角度编差引起配合长度上压力变化的基础上,提出了在母线角度不同时计算圆锥过盈连接圆周力矩的数学模型,论述了母线角度偏差对相对圆周力矩的影响,为圆锥过盈联接的设计提供了重要的理论参考依据。
4) angular misalignment
角度偏差
1.
The effect of GRIN lend misalignment,end separation,lateral displacement and angular misalignment on coupling efficiency of optical signal transmitting system is tested and investigated by coupling between the GRIN lens and detector.
通过自聚焦透镜和光电探测器耦合系统,研究、测试了自聚焦透镜装配引起的轴向距离、角度偏差和离轴偏差对信号传输系统耦合效率的影响。
5) inclination
[英][,ɪnklɪ'neɪʃn] [美]['ɪnklə'neʃən]
倾斜,斜度;倾角,偏角;偏差
6) Depolarization loss
退偏损耗
1.
Depolarization loss analysis of electro-optic crystal KDP heated by repetition frequency laser;
重频应用下等离子体电光开关热退偏损耗分析
2.
Based on the depolarization characteristics analysis of Nd:YAG rod,the properties of compensating depolarization loss and self-selecting mode,and the stability of resonator are discussed.
在分析棒状激光介质热应力导致退偏损耗特性的基础上,建立了相应的数学模型,探讨了谐振腔内低阶模和高阶模退偏损耗的不同特性,提出一种具有退偏补偿和选模功能的新型谐振腔。
补充资料:介质损耗角正切试验(见电容率与损耗因数试验)
介质损耗角正切试验(见电容率与损耗因数试验)
dielectric loss tangent test
)!eZh.sunhooJ一002匕engq一e sh一yon介质损耗角正切试验(dieleetri。1055 tangenttest)见电容率与损耗因数试验。
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