1) rectangular clapboard
矩形隔板
1.
Comparison of end wall heat transfer and pressure drop characteristics was made between two kinds of rectangular clapboards and two kinds of waved clapboard in the turbine bl.
主要讨论了在通道其它结构均相同的条件下分别采用4种不同结构的隔板(2种孔径的矩形隔板与2种孔径的波形隔板),研究隔板中孔径大小对通道换热和流阻的影响。
2) waved clapboard
波形隔板
1.
Comparison of end wall heat transfer and pressure drop characteristics was made between two kinds of rectangular clapboards and two kinds of waved clapboard in the turbine bl.
主要讨论了在通道其它结构均相同的条件下分别采用4种不同结构的隔板(2种孔径的矩形隔板与2种孔径的波形隔板),研究隔板中孔径大小对通道换热和流阻的影响。
3) rectangular plate
矩形板
1.
Three-dimensional analysis of thermo-mechanical-electric behaviour of functionally gradient piezoelectric material rectangular plate;
功能梯度压电矩形板热机电耦合三维分析
2.
Dynamic response of rectangular plate on two-parameter foundation to moving load;
双参数地基矩形板在运动荷载下的动力响应分析
3.
A general analytical solution of anisotropic rectangular plates in bending;
各向异性矩形板弯曲的一般解析解
4) rectangular sheet
矩形钢板
5) thick rectangular plate
厚矩形板
1.
Bending of thick rectangular plates with adjacent simply supported andtwo-fixed edges under hydrostatic pressure;
复杂边界厚矩形板在静水压力作用下的弯曲
2.
Using RTM to solve the bending of thick rectangular plates with complex boundaries;
功的互等法解复杂边界条件下厚矩形板的弯曲
3.
Bending of thick rectangular plates with adjacent simply supported,one fixed and one free edges under hydrostatic pressure
静水压力作用下复合边界条件厚矩形板的弯曲
6) rectangular plates
矩形板
1.
Buckling analysis of moderately thick rectangular plates by the state space approach;
中厚矩形板屈曲特性的状态空间解法
2.
Analysis of free vibrations of rectangular plates by barycentric rational interpolation collocation method
重心有理插值配点法分析矩形板自由振动
3.
The post-buckling equilibrium path of the rectangular plates with clamped boundaries can be obtained by solving these two systems of nonlinear eq.
根据VonKarman板大挠度方程,以小波函数作为试函数,采用小波加权残值法将四边固支矩形板的平衡控制方程和变形协调方程化解为两个非线性方程组,将后屈曲路径的求解转化为两个非线性方程组的求解问题。
补充资料:超细玻璃纤维隔板
分子式:
CAS号:
性质:采用硼硅玻璃制成的一种用于铅酸蓄电池的超细纤维隔板。由于孔径小、孔率大,能吸收大量电解液,常用作阀控密封式铅酸蓄电池、贫液蓄电池的隔板。
CAS号:
性质:采用硼硅玻璃制成的一种用于铅酸蓄电池的超细纤维隔板。由于孔径小、孔率大,能吸收大量电解液,常用作阀控密封式铅酸蓄电池、贫液蓄电池的隔板。
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