冲击加载下分子流体/窗口界面"冲击冷却"的物理机制OA
Physical Mechanisms of"Shock Cooling"at the Molecular Fluid/Window Interface under Shock Loading
分子流体/窗口"冲击冷却"的物理机制是困扰冲击波物理学界多年的科学问题.对冲击界面冷却效应的物理解释有 3 种不同观点:分子流体/窗口之间的热平衡、熔融态光学窗口的消光效应和分子流体的冲击响应特性.为此,对比研究了化学活性流体CHBr3 及惰性液态氩(LAr)与LiF光学窗口界面的冲击辐射行为和辐射温度变化特征.在相同的冲击压强下,2 种介质的界面辐射特性呈现出不同的演变特征,可以认为,界面冷却效应与流体介质及其化学活性密切相关.观测结果表明,界面冷却效应由流体自身冲击响应所致,与热传导机制和窗口熔化消光机制无关.
The physical mechanism of"shock cooling"at the molecular fluid/window interface has troubled the shock wave physics community for many years and remains unsolved.There are three distinct viewpoints for explaining the cooling effect at the shock interface:thermal equilibrium between the molecular fluid and the window,extinction effect of the molten optical window,and specific shock response of the molecular fluid.This paper comparatively investigates the shock radiation and temperature variation characteristics of the interfaces between the chemically active fluid CHBr3/the inert liquid argon(LAr)and the LiF optical window.Under the same shock pressure,the interface radiation exhibits distinct evolution features for the two liquids,indicating that the interface cooling effect is closely related to the fluid medium and its chemical activity.Therefore,the experimental results of this paper strongly support that the interface cooling effect is caused by the shock response of the fluid itself,rather than heat conduction or window melting extinction.
李柯苇;AKRAM Muhammad Sabeeh;杨雷;袁文硕;刘福生
西南交通大学物理科学与技术学院,高温高压物理研究所,四川 成都 610031西南交通大学物理科学与技术学院,高温高压物理研究所,四川 成都 610031西南交通大学物理科学与技术学院,高温高压物理研究所,四川 成都 610031西南交通大学物理科学与技术学院,高温高压物理研究所,四川 成都 610031西南交通大学物理科学与技术学院,高温高压物理研究所,四川 成都 610031
数理科学
分子流体冲击加载辐射测温冲击致冷三溴甲烷液氩
molecular fluidshock loadingradiation thermometryshock coolingbromoformliquid argon
《高压物理学报》 2026 (2)
1-8,8
国家自然科学基金(12072299)冲击波物理与爆轰物理全国重点实验室基金(JCKYS2019212007)
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