Structural and Thermal Loads for Hypersonic HEXAFLY-INT Vehicle

D. Cristillo, Roberto Scigliano, S. D. Benedetto, S. Cardone, M. Appolloni, A. Jaskó
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Abstract

The purpose of this paper is to describe the procedures used to evaluate structural and thermal loads experimented by the HEXAFLY-INT Experimental Flight Test Vehicle (EFTV) and Experimental Service Module (ESM) during the ascent phase of the flight trajectory. The HEXAFLY-INT payload will be launched by a rocket in a suborbital trajectory having an apogee at around 90 km and Mach 8. During this phase the structure is subjected to the launcher environment that includes several events which generates static, random and sinusoidal acceleration and by a fixed thermal distribution. The load conditions due to mechanical loads have been defined by dynamic analyses by means of MSC Nastran software. Thermal loads have been identified by using Ansys Workbench software. The thermo-structural load conditions due to launcher environment have been defined by means of an interpolation procedure for transferring thermal distribution from Ansys to the Nastran FE Model.
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高超声速hexfly - int飞行器的结构和热载荷
本文的目的是描述用于评估在飞行轨迹上升阶段由hexfly - int实验飞行测试飞行器(EFTV)和实验服务舱(ESM)试验的结构和热载荷的程序。hexfly - int有效载荷将由一枚火箭在亚轨道轨道上发射,远地点约为90公里,马赫为8。在这个阶段,结构受到发射器环境的影响,其中包括几个产生静态、随机和正弦加速度的事件,以及固定的热分布。利用MSC Nastran软件进行动态分析,确定了由机械载荷引起的载荷条件。利用Ansys Workbench软件对热载荷进行了识别。通过将Ansys的热分布传递到Nastran有限元模型的插值程序,确定了由发射体环境引起的热结构载荷条件。
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