Hypersonic Vst Mac Site

This paper presents the conceptual design and preliminary analysis of the Hypersonic VST-MAC , a novel air-breathing vehicle capable of efficient subsonic, transonic, supersonic, and hypersonic (Mach 6+) flight. The design integrates two enabling technologies: (1) a Variable Sweep/Tilt (VST) wing, which adjusts both sweep angle and anhedral/dihedral tilt to control wave drag and lift distribution, and (2) a Mach-Area Ruled (MAC) fuselage, dynamically deforming via morphing panels to maintain Sears-Haack body equivalence across Mach numbers. Analytical and numerical results indicate a 40% reduction in wave drag at transonic speeds and a 25% improvement in hypersonic lift-to-drag ratio compared to fixed-geometry hypersonic vehicles. The paper details aerodynamic principles, structural mechanics, thermal management, and control strategies.

[ C_L = 2\sin^2\theta_p \cdot \cos\Lambda ] hypersonic vst mac

Lift coefficient in hypersonic regime (Newtonian theory): This paper presents the conceptual design and preliminary

However, optimal (A(x)) shifts with (M). The MAC fuselage consists of overlapping, segmented panels reinforced with shape memory alloy (SMA) ribs that contract or expand, altering the radius at each station (x). For hypersonic flight, the nose becomes sharper (lower bluntness ratio) and the midbody swells to reduce wave drag. The wing uses a dual-pivot mechanism embedded in a thermally insulated wing box. Sweep angle (\Lambda) changes via linear actuators, while tilt (\theta_t) changes via rotary joints at the root. For hypersonic flight, the nose becomes sharper (lower