空间站高温柜材料实验过程中的传热分析OA
Heat Transfer Analysis of High Temperature Rack Material in Space Station
材料凝固过程中的温场对其最终的组织与性能有着重要影响.由于空间与地面环境下热对流的不同,其传热特性存在一定差异,从而导致材料实验炉内温场分布也存在差异.这使得在地面获得的控温参数无法直接应用到空间实验中,进而对空间与地面材料实验条件的对等性造成影响.为获得空间传热特征,构建立了一个空间站高温材料实验炉三维传热数值计算模型并进行合理简化,对地面实验和空间实验进行了温场的仿真模拟,得到样品盒温度分布,分析了在空间微重力环境与地面重力环境下传热参数的变化,得出与实验条件相似的传热规律.研究结果可为基于高温柜材料实验炉地基实验结果预测其空间温场分布提供研究参考.
The temperature field during solidification has an important influence on the microstruc-ture and properties of the material.Due to the difference of heat convection in space and ground envi-ronment,natural convection driven by gravity plays an important role in heat transfer in ground envi-ronment.However,in space,the microgravity environment almost eliminates the influence of gravity-dominated natural convection,which will lead to certain differences in the heat transfer characteristics between space and ground,resulting in differences in the temperature field distribution in the material experimental furnace.As a result,the temperature field obtained on the ground is different from that in space under the same temperature control conditions,thus affecting the equivalence of experimental conditions between space and ground materials.The heat transfer characteristics obtained from ground experiments cannot be directly applied to space experiments.This mismatch has a major impact on the space materials experiments.In order to obtain the heat transfer characteristics under microgravity conditions,a three-dimensional numerical model of heat transfer in the high temperature material experi-mental rack of the space station is established.In the modeling process,reasonable simplification is carried out according to the actual physical conditions,some minor heat transfer factors which have little influence on the overall temperature field are ignored.The temperature field simulation of the ground experiment and the space experiment was carried out respectively,and the temperature distribu-tion of the sample box was obtained.The temperature obtained by simulation was compared with the measured temperature.Through comprehensive analysis of the changes of heat transfer parameters in the space microgravity environment and the normal gravity environment on the ground,the heat transfer law similar to the space condition was obtained.The research results provide a new way to predict the space temperature field distribution based on the ground experiment results of high temperature mate-rials experiment rack and have important guiding significance for the future research of space materials.
鲁鹏飞;苏克显;潘秀红;罗兴宏;于强
中国科学院国家空间科学中心 北京 100190||中国科学院大学 北京 101408桂林理工大学机械与控制工程学院 桂林 541006中国科学院上海硅酸盐研究所 上海 201899中国科学院金属研究所 沈阳 110016中国科学院国家空间科学中心 北京 100190
航空航天
温场分布空间实验空间材料科学空间高温实验柜传热特征数值模拟
Temperature profileSpace experimentSpace materials scienceSpace high temperature experimental rackHeat transfer characteristicsNumerical simulation
《空间科学学报》 2026 (2)
362-370,9
中国载人航天工程项目资助(Y69001A950)
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