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An Elasticity-Based Mesh Scheme Applied to the Computation of Unsteady Three-Dimensional Spoiler and Aeroelastic Problems

机译：基于弹性的网格方案在非定常三维扰流和气弹问题计算中的应用

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This paper presents a modification of the spring analogy scheme which uses axial linear spring stiffness with selective spring stiffening/relaxation. An alternate approach to solving the geometric conservation law is taken which eliminates the need for storage of metric Jacobians at previous time steps. Efficiency and verification are illustrated with several unsteady 2-D airfoil Euler computations. The method is next applied to the computation of the turbulent flow about a 2-D airfoil and wing with two and three- dimensional moving spoiler surfaces, and the results compared with Benchmark Active Controls Technology (BACT) experimental data. The aeroelastic response at low dynamic pressure of an airfoil to a single large scale oscillation of a spoiler surface is computed. This study confirms that it is possible to achieve accurate solutions with a very large time step for aeroelastic problems using the fluid solver and aeroelastic integrator as discussed in this paper.

机译：本文提出了一种对弹簧类比方案的修改，该方案使用了轴向线性弹簧刚度和选择性弹簧刚度/松弛度。采取了另一种解决几何守恒定律的方法，从而消除了在先前的时间步中存储公制Jacobian的需求。效率和验证通过几种非稳态二维翼型Euler计算进行了说明。接下来将该方法用于计算二维翼型和带有二维和三维移动扰流板的机翼的湍流，并将结果与基准主动控制技术（BACT）实验数据进行比较。计算了翼型件在低动压下对扰流板表面的单个大规模振动的气动弹性响应。这项研究证实，使用本文讨论的流体求解器和气动弹性积分器，可以在很大的时间步长内解决气动弹性问题，从而获得精确的解决方案。

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Bartels Robert E.;
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年度 1999
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An Elasticity-Based Mesh Scheme Applied to the Computation of Unsteady Three-Dimensional Spoiler and Aeroelastic Problems

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