1) wing body tail configuration
翼-身-尾组合体
1.
In the first part, an algebraic procedure for the generation of boundary fitted grids about wing body tail configuration is presented.
采用代数方法快速生成翼-身-尾组合体三维O-C型贴体网格。
2) fuselage-tail combination configuration
机身-尾翼组合体
3) wing-body-tail combination
翼体尾组合
4) wing-body combination
翼-身组合体
1.
Two computed models and a numerical method based on nonlinear discrete vortex method are presented to simulate the vortex flow about wing-body combinations.
论述了用非线性离散涡法来模拟大迎角下翼-身组合体涡流绕流的计算模型及计算方法;给出了一个典型翼-身组合体的涡流流态计算结果及其非线性气动特性和截面压强(或载荷)分布。
2.
The research on aerodynamic characteristics of wrap-around fin and wing-body combination was carried out at super high speeds in this dissertation.
本文开展了弧形翼及翼-身组合体在超高速下的空气动力学特性研究。
5) wing-body
翼身组合体
1.
Aerodynamic configuration conceptual design for a wing-body vehicle;
一种翼身组合体的气动概念设计(英文)
2.
Wing-body vehicles may have very high lift-to-drag ratio and maneuverability,and high L/D will benefit to increase the landing precision,enlarge the flight corridor,decrease the peak heat flux and the over load.
翼身组合体具有较高的升阻比,可进行较大范围的机动,而且还可以提高落点精度、扩大再入走廊、降低热流峰值并降低过载。
3.
The finite volume technique used by Kroll to calculate Euler equations is developed in this paper to solve wing-body flow.
给出了用Euler方程对大展弦比翼身组合体绕流的数值模拟,将Kroll的求解欧拉方程的有限体积法,推广到求解机翼机身流动问题,基本思想是使用保角变换、代数变换和椭圆方程变换混合方法生成机翼机身贴体网格。
6) wing-body combination
翼身组合体
1.
The study of evolution of the flow over the wing-body combination along the model axis at high incidences;
翼身组合体大迎角前体非对称涡流动性态研究
2.
The computation of a wing-body combination with aileron;
带副翼的翼身组合体的数值模拟
3.
A finite volume scheme is used to solve Euler equations in order to simulate transonic high-angle-of attack flow over a wing-body combination.
本文应用有限体积法求解Euler方程,数值模拟翼身组合体大攻角、跨声速绕流。
补充资料:组合模式或组合振动
分子式:
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
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