1) Thick half-Plane
厚半平面
2) surface thick-film
厚膜平面化
1.
Some opinion and solution were given for some issues, such as components selecting, surface thick-film, reducing size, reducing ripple, improving reliability and realizing unbalance load.
通过对+5V和–12V电路的详细讨论,介绍了该产品的电路原理,并对元件选取、厚膜平面化、减小体积、降低纹波、提高可靠性和实现不平衡加载等问题提出了见解和相应的解决方法。
3) half-plane
半平面
1.
Based on hyper-singular integral equations of the inclined crack in the half-plane,through appropriate variable replacements and equation collocations,establish the linear equations.
从研究半平面斜裂纹问题的超奇异积分方程出发,通过适当的正则化代换和方程配置,建立求解问题的线性方程组,从而得出计算半平面中任意斜裂纹问题的数值方法,并编制Fortran计算程序,对不同情况下裂纹的应力强度因子进行计算。
2.
The problem of the crack parallel to the free boundary in a half-plane body, with the distributed loads only at the crack surface is discussed in this paper.
对自由边半平面平行于界面的裂纹问题进行了研究。
3.
The edge internal branch crack problems for half-plane in antiplane elasticity are solved with complex potentials and singular integral equation approach.
利用复变函数和奇异积分方程方法,求解反平面弹性中半平面边缘内分叉裂纹问题。
4) half plane
半平面
1.
By using of complex variable function and integral equation method, the antiplane multiple holes and cracks problem of half plane region is considered in this paper.
运用复变函数及积分方程方法,求解了半平面域多圆孔多裂纹反平面问题。
2.
On the basis of half plane equations, this paper presents a principle named"multiple half plane" to study the intersection of line segments and describes a principleto determine whether two line segments intersect.
本文根据线段的半平面方程特性,提出了一种“多重半平面”原理来研究线段的相交性问题,建立了线段是否相交的判别准则。
3.
Using the Cauchy Integral Method of complex variable, the fundamental solutions of complex stress functions due to a concentrated force or moment acting on an arbitrary point in an anisotropic half plane were derived when the straight line boundary of the half plane was free or fixed.
应用复变函数Cauchy积分的方法,对于各向异性半平面边界为自由或固定两种情形,分别导出了其在任意集中力或集中力偶作用下的复应力函数基本解,其特例与前人结果一
5) Half planar body
半平面体
6) External Semi-Plane
内半平面
补充资料:半平面
一个平面内的一条直线,把这个平面分成两部分,其中的每一部分都叫做半平面.
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