Preflight and Postflight Thermal/Structural Analysis of BOLT-2: The Holden Mission

Journal of Spacecraft and Rockets Pub Date : 2024-05-12 DOI:10.2514/1.a35978

Bradley M. Wheaton, Aaron T. Dufrene

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Abstract

BOLT-2: The Holden Mission, a follow-on to the BOLT experiment, was designed to measure the characteristics of turbulent flow in the hypersonic flight regime. This paper summarizes preflight transient thermal and structural analyses for the predicted flight trajectories that led to the selection of suitable materials for the flight experiment. Following the successful flight in March 2022, the preflight analysis methods, along with temperature measurements from the flight, were used to conduct a postflight thermal analysis based on the as-flown trajectory that attempted to match the flight data. Conservatism in the preflight design analysis was compared to the flight measurements. Databases of computed laminar and turbulent heating were generated as part of this effort that can aid in future analysis of the experimental data. The effects of modeling transitional heating during ascent were quantified when compared to a fully turbulent heating assumption. A set of estimated three-dimensional surface temperature distributions have been computed and were found to be a good match to the available flight data. Postflight structural modeling was used to estimate the differential thermal expansion at the nosetip/frustum joint interface.

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BOLT-2：霍尔登飞行任务的飞行前和飞行后热能/结构分析

BOLT-2：霍尔登任务是 BOLT 试验的后续项目，旨在测量高超音速飞行状态下的湍流特性。本文总结了预测飞行轨迹的飞行前瞬态热分析和结构分析，从而为飞行实验选择了合适的材料。在 2022 年 3 月成功飞行之后，利用飞行前分析方法和飞行温度测量结果，根据飞行轨迹进行了飞行后热分析，试图与飞行数据相匹配。飞行前设计分析的保守性与飞行测量结果进行了比较。作为这项工作的一部分，生成了计算层流和湍流加热的数据库，这有助于今后对实验数据进行分析。与完全湍流加热假设相比，对上升过程中的过渡加热建模效果进行了量化。计算了一组估计的三维表面温度分布，发现与现有的飞行数据非常吻合。飞行后结构建模用于估算鼻尖/壳体连接界面的热膨胀差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Spacecraft and Rockets

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