在其生命周期中,一个组件经历一系列的转换、旋转、缩放、剪切和拉伸,最后才显示在屏幕上。
During its life cycle, a component undergoes a series of translations, rotations, scaling, shearing, and stretching before it's finally displayed on the screen.
在常规横向剪切干涉仪的基础上,利用波前周期延拓的假设,基于小波变换的方法实现了波前重构。
On the assumption of wavefront prolongation, a new optical phase retrieval algorithm by conventional lateral shear interferometer with wavelet transform is introduced.
研究无限介质中矩形排列双周期圆柱形夹杂的纵向剪切问题。
An infinite elastic solid containing a doubly periodic rectangular array of cylindrical inclusions under longitudinal shear is dealt with.
剪切行程可能会在任何周期停止或逆转。
Shear travel may be stopped or reversed at any time of cycle.
结果计算得到了人体主动脉弓内的血液流动在心动周期不同时刻的速度场、压力、壁面剪切应力的分布特征。
Results Distributions of blood velocity, pressure, wall shear stress (WSS) in the human aortic arch at different point during one cardiac circle were determined by calculation.
研究了不同材料界面含周期刚性线夹杂的纵向剪切问题。
Longitudinal shear problems of collinear periodical rigid line inclusions at the interface of dissimilar materials were dealt with.
介绍了旋转环形水槽的结构和工作原理,提出了削弱环形水流离心力的方法,通过环形水槽中周期往复流泥沙运动试验得出水体含沙量与床面剪切力和水体挟沙力之间的关系。
The method of weakening centrifugal force in the rotary ring flume is proposed and sediment movement under the effect of periodic reciprocating current is tested in the ring flume.
本研究利用“剪切梁”模型,研究了在定常侧压力和周期性的反平面剪切载荷共同作用下,层间界面的破坏规律。
In this study, the interface failure under the joint action of constant compression and periodical anti-plane shear were investigated.
采用计算机仿真和实验相结合的方法来研究板带剪切过程,可以缩短剪切机的开发周期,降低生产成本。
Using computer simulation and experimental methods to study the strip shearing process, can reduce shearing machine development cycle, reduce production costs.
基于外显子序列的三基周期性,他采用傅立叶分析技术提出了几种基因区域和剪切点位置预测方法。
Based on the three-base periodicity of exon sequence, he developed some Fourier analysis approaches to predict gene regions.
本研究利用“剪切梁”模型,研究了在定常侧压力和周期性的反平面剪切载荷共同作用下,层间界面的破坏规律。
In this study, the interface failure under the joint action of constant compression and periodical anti-plane shear is investigated.
本研究利用“剪切梁”模型,研究了在定常侧压力和周期性的反平面剪切载荷共同作用下,层间界面的破坏规律。
In this study, the interface failure under the joint action of constant compression and periodical anti-plane shear is investigated.
应用推荐