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An efficient and modular modeling for launch dynamics of tubed rockets on a moving launcher

Qinbo Zhou, Xiaoting Rui, Guoping Wang, Jian-shu Zhang

2020Defence Technology18 citationsDOIOpen Access PDF

Abstract

This paper develops a modular modeling and efficient formulation of launch dynamics with marching fire (LDMF) using a mixed formulation of the transfer matrix method for multibody systems (MSTMM) and Newton-Euler formulation. Taking a ground-borne multiple launch rocket systems (MLRS), the focus is on the launching subsystem comprising the rocket, flexible tube, and tube tail. The launching subsystem is treated as a coupled rigid-flexible multibody system, where the rocket and tube tail are treated as rigid bodies while the flexible tube as a beam with large motion. Firstly, the tube and tube tail can be elegantly handled by the MSTMM, a computationally efficient order-N formulation. Then, the equation of motion of the in-bore rocket with relative kinematics w.r.t. the tube using the Newton-Euler method is derived. Finally, the rocket, tube, and tube tail dynamics are coupled, yielding the equation of motion of the launching subsystem that can be regarded as a building block and further integrated with other subsystems. The deduced dynamics equation of the launching subsystem is not limited to ground-borne MLRS but also fits for tanks, self-propelled artilleries, and other air-borne and naval-borne weapons undergoing large motion. Numerical simulation results of LDMF are given and partially verified by the experiment.

Topics & Concepts

Rocket (weapon)Tube (container)Equations of motionModular designAerospace engineeringDynamics (music)KinematicsMultibody systemFocus (optics)Euler equationsEngineeringMechanical engineeringComputer sciencePhysicsMathematicsClassical mechanicsMathematical analysisAcousticsOperating systemOpticsElectromagnetic Launch and Propulsion TechnologyDynamics and Control of Mechanical SystemsStructural Response to Dynamic Loads
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