论文信息 - Critical states and flow structure on a 65-deg delta wing

Critical states and flow structure on a 65-deg delta wing

Swept and delta wings maneuvering at moderate and high angles of attack produce highly nonlinear and often discontinuous aerodynamic forces and moments that are difficult to model. The nonlinear indicial response (NIR) methodology and the concept of critical states accompanied by changes in the flow structure and topology could provide a rational framework for the analyses and modeling of these flows. The analysis of surface oil-flow photographs and laser light sheet high-speed video images of smoke flow has been performed. The correlation of the structural and topological changes in the flow with force and moment data follows. Critical states are often accompanied by changes in the flow topology and not all topological changes produce measurable changes hi the forces and moments, however, a useful relationship may exist.

[1] E. Hanff,et al. Roll-induced cross-loads on a delta wing at high incidence , 1991 .

[2] A. Prini,et al. Large-amplitude high-rate roll oscillation system for the measurement of non-linear airloads , 1990 .

[3] James H. Myatt,et al. Body-axis rolling motion critical states of a 65-degree delta wing , 1993 .

[4] E. Hanff,et al. Large-amplitude high-rate roll experiments on a delta and double delta wing , 1990 .

[5] Neal M. Chaderjian,et al. Navier-Stokes prediction of large-amplitude forced and free-to-roll delta-wing oscillations , 1994 .

[6] E. Hanff,et al. Prediction of leading-edge vortex breakdown on a delta wing oscillating in roll , 1992 .

[7] N. G. Parke,et al. Ordinary Differential Equations. , 1958 .

[8] Khiem Van Truong,et al. Indicial response approach derived from Navier-Stokes equations. Part 1: Time-invariant equilibrium state , 1990 .

[9] Jerry E. Jenkins,et al. Body-axis rolling motion critical states of a 65-degree delta wing , 1993 .

[10] W. H. Wentz,et al. Vortex breakdown on slender sharp-edged wings , 1969 .

[11] G. T. Chapman,et al. Modeling aerodynamic discontinuities and onset of chaos in flight dynamical systems , 1987 .

[12] Deborah S. Grismer,et al. Critical-State Transients for a Rolling 65-Degree Delta Wing , 1996 .

[13] Lars E. Ericsson,et al. Further analysis of high-rate rolling experiments of a 65 deg delta wing , 1993 .