Stress analysis of asteroids during atmospheric entry and implications for the breakup criterion

IF 2.5 2区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Icarus Pub Date : 2025-03-07 DOI:10.1016/j.icarus.2025.116526

Théo A. Rulko , Aaditya Rau , Grégoire Chomette , Lorien Wheeler , Donovan Mathias , Jessie Dotson , Raúl Radovitzky

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Abstract

Observations of asteroid fragmentation upon atmospheric entry have been used as a basis to estimate asteroid mechanical strength by the simplifying assumption that strength corresponds to ram pressure at burst. However, it is unclear whether ram pressure is a good scalar measure of the stresses that induce fracture. In this work, we study the stress fields prior to break-up in idealized as well as representative irregular asteroids as they enter the atmosphere. We develop a model for elastic, homogeneous, monolithic asteroids subject to aerodynamic, inertial, and centrifugal loads applied via the Meteor Equations and modified Newtonian aerodynamic theory. We obtain an analytical solution to the elasticity boundary value problem for an idealized circular asteroid. Alongside it, detailed finite element solutions are used to both verify the analytical model and to quantify the effects of asteroid shape irregularity on the state of stress. We find that the stresses that drive brittle fracture in asteroids may be an order of magnitude lower than the ram pressure, which could have significant implications for strengths inferred from breakup observations. We also quantify the effect of the spin of the asteroid as it tumbles through the atmosphere and the regimes in which spin-induced stresses dominate. Finally, we find that asteroids with small shape variations are well-approximated as spheres, but that large shape irregularities, like at the necks of elongated or contact binary asteroids, may lead to the appearance of regions of tensile bending stress. Conclusions are drawn about the usefulness of the ram pressure alone as a measure of stress in asteroids.

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小行星进入大气层时的应力分析及其破碎准则的意义

小行星在进入大气层时破碎的观测结果已被用来作为估计小行星机械强度的基础，其简化假设是强度对应于爆炸时的撞击压力。然而，尚不清楚滑枕压力是否是诱发破裂应力的良好标量度量。在这项工作中，我们研究了理想和有代表性的不规则小行星在进入大气层时破裂前的应力场。通过流星方程和修正的牛顿空气动力学理论，我们建立了一个弹性、均匀、单片小行星的模型，该模型受气动、惯性和离心载荷的影响。得到了理想圆形小行星弹性边值问题的解析解。除此之外，还使用了详细的有限元解来验证分析模型并量化小行星形状不规则对应力状态的影响。我们发现驱动小行星脆性断裂的应力可能比撞击压力低一个数量级，这可能对从破裂观测中推断出的强度有重要意义。我们还量化了小行星在大气层中翻滚时自旋的影响，以及自旋引起的应力占主导地位的情况。最后，我们发现形状变化较小的小行星可以很好地近似为球体，但较大的形状不规则，如细长或接触双小行星的颈部，可能导致拉伸弯曲应力区域的出现。得出的结论是，仅用撞击压力作为小行星应力测量的有用性。

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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来源期刊

Icarus 地学天文-天文与天体物理

CiteScore

6.30

自引率

18.80%

发文量

356

审稿时长

2-4 weeks

期刊介绍： Icarus is devoted to the publication of original contributions in the field of Solar System studies. Manuscripts reporting the results of new research - observational, experimental, or theoretical - concerning the astronomy, geology, meteorology, physics, chemistry, biology, and other scientific aspects of our Solar System or extrasolar systems are welcome. The journal generally does not publish papers devoted exclusively to the Sun, the Earth, celestial mechanics, meteoritics, or astrophysics. Icarus does not publish papers that provide "improved" versions of Bode''s law, or other numerical relations, without a sound physical basis. Icarus does not publish meeting announcements or general notices. Reviews, historical papers, and manuscripts describing spacecraft instrumentation may be considered, but only with prior approval of the editor. An entire issue of the journal is occasionally devoted to a single subject, usually arising from a conference on the same topic. The language of publication is English. American or British usage is accepted, but not a mixture of these.