多口径辐射单元结构是一个封闭的腔体,采用常规的机械加工方法无法实现,必须将其分解成几个结构件分别加工,再将其连接成腔体。
The structure of multiple-aperture radiation element is a closed cavity which cant be processed with normal machining method and have to be disparted to several parts.
对产生的可弃语义单元可采用迭代的方法将进一步分解。
The generated abandonable se can be further decomposed through reiteration method.
该方法依据机构的拓扑结构特征,将机构分解为若干个有序单开链单元,又进一步划分出各基本运动链。
According to the topological structure characteristics of the mechanism, the mechanism can be decomposed into some ordered single-opened-chains, which can further compose same basic kinematic chains.
使用单位分解积分,对传统的无单元伽辽金方法进行改进。
The element-free Galerkin method(EFGM) is improved with partition of unity quadrature(PUQ).
通过规划我们将一个项目分解为各个可操作的单元,然后以“假想表格”作为基本的规划方法来进行现场实施规划。
Then the planning process breaks the project into an operating unit and begins using the assumption sheets as the base planning point to plan the operating venue.
该方法将单元模态应变能分解为拉压、扭转和弯曲模态应变能,利用单元的主要模态应变能分量与结构固有频率的改变量对结构裂纹位置进行识别。
In the method the modal strain energy of an element is divided into tension modal strain energy, torsion modal strain energy and bending modal strain energy.
该方法将单元模态应变能分解为拉压、扭转和弯曲模态应变能,利用单元的主要模态应变能分量与结构固有频率的改变量对结构裂纹位置进行识别。
In the method the modal strain energy of an element is divided into tension modal strain energy, torsion modal strain energy and bending modal strain energy.
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