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Coupled radiative thermal and nonlinear stress analysis for thermal deformation in large space structures

机译：大空间结构热变形的辐射热与非线性应力耦合分析

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Large space structures are capable of large thermal deformations in the space environment. A case of large-scale thermal deformation was observed in the analysis of the Near Earth Asteroid Scout solar sail, with predicted tip displacements of more than one meter in seven-meter booms. Experimental data supports the broad conclusions of the analysis, but shows poor agreement on the details of the thermal deformation. Prediction that is precise enough to drive engineering decisions will require coupled thermal-stress analysis with features that are not found in current multiphysics codes. This paper describes a simple method for stepwise coupling between commercial nonlinear stress analysis software and radiative thermal analysis software. Results are presented for a round stainless steel tube, which is a common case in existing literature.

机译：大空间结构能够在空间环境中产生较大的热变形。在对近地小行星侦察员太阳帆的分析中观察到一个大规模热变形的案例，在七米的吊杆中，预测的尖端位移超过一米。实验数据支持分析的广泛结论，但在热变形的细节方面显示出较差的一致性。要进行足够精确的预测以推动工程决策，就需要结合热应力分析和当前多物理场规范中未发现的功能。本文介绍了一种简单的方法，可在商业非线性应力分析软件和辐射热分析软件之间进行逐步耦合。给出了圆形不锈钢管的结果，这在现有文献中很常见。

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《AIAA spacecraft structures conference;AIAA SciTech forum 》|2018年|1-11|共11页
会议地点 Kissimmee(US)
作者
Olive R. Stohlman;
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NASA Langley Research Center. Hampton. VA;

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4. Coupled radiative thermal and nonlinear stress analysis for thermal deformation in large space structures [C] . Olive R. Stohlman AIAA spacecraft structures conference . 2018

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5. Nonlinear thermal stress/fracture analysis of multilayer structures using enriched finite elements. [D] . Yildirim, Borg. 2000

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6. Quantitative Study of the Nonlinearly Enhanced Photoacoustic/Photothermal Effect by Strong LSPR-Coupled Nanoassemblies [O] . Yujiao Shi, Dandan Cui, Zhenhui Zhang 2020

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7. This article presents a new numerical model describing the behaviour of a thermally thick wood sample exposed to high solar heat flux (above 1 MW/m2). A preliminary study based on dimensionless numbers is used to classify the problem and support model building assumptions. Then, a model based on mass, momentum and energy balance equations is proposed. These equations are coupled with liquid-vapour drying model and pseudo species biomass degradation model. By comparing to a former experimental study, preliminary results have shown that these equations are not enough to accurately predict biomass behaviour under high solar heat flux. Indeed, a char layer acting as radiative shield forms on the sample exposed surface. In addition to this classical set of equations, it is mandatory to take into account radiation penetration into the medium. Furthermore, as biomass contains water, medium deformation consecutively to char steam gasification must also be implemented. Finally, with the addition of these two strategies, the model is able to properly capture the degradation of biomass when exposed to high radiative heat flux over a range of sample initial moisture content. Additional insights of biomass behaviour under high solar heat flux were also derived. Drying, pyrolysis and gasification fronts are present at the same time inside of the sample. The coexistence of these three thermochemical fronts leads to char gasification by the steam produced from drying of the sample, which it is the main phenomenon behind medium ablation. [O] . Pozzobon, Victor, Salvador, Sylvain, Bézian, Jean Jacques 2018

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Coupled radiative thermal and nonlinear stress analysis for thermal deformation in large space structures

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