理想流体空穴湮灭能量汇问题的特征能量因子OA
Characteristic energy factors for energy sink problem of the ideal fluid cavity annihilation
在物理学中,"源"指的是物质或能量的出发点,而"汇"则是指物质或能量的到达点.类比地下爆炸能量源问题,提出了理想流体空穴湮灭的能量汇问题,详细分析了理想流体空穴湮灭问题中能量的平衡关系与调整机制,建立了流体压力做功与能量汇聚、传递和转化的关系,引入了描述能量汇"向心汇聚"问题的特征能量因子.分析了特征能量因子的物理机理与数学依据,阐述了特征能量因子的特点、优势以及适用范围.能量汇特征能量因子包含了汇聚能量、空穴的几何尺寸以及流体的物理性质等信息,能很好地表征能量汇问题的"汇聚"特性,可为后续固体"能量汇"问题的研究奠定理论基础.
In physics,a"source"denotes the origin of matter or energy,while a"sink"refers to the terminal point of matter or energy.By analogizing with the energy source problem in underground explosions,this study proposes an energy sink problem for ideal fluid cavity annihilation.A detailed analysis is conducted on the energy balance and adjustment mechanisms in the ideal fluid cavity annihilation problem,establishing the relationships among fluid pressure work,energy convergence,transmission and transformation.A characteristic energy factor is introduced to describe the"centripetal convergence"behavior of energy sinks.The characteristic energy factor for energy sinks incorporates the information on converged energy,geometric dimensions of cavities and physical properties of fluids,effectively characterizing the"convergence"behavior of energy sink problems and laying a theoretical foundation for the subsequent research on"energy sink"problems in solids.The physical mechanisms and mathematical foundations of the characteristic energy factor are analyzed,and its characteristics and advantages are expounded.Specifically,the introduction of the characteristic energy factor circumvents the need for complex stress-strain relationships,boundary conditions,and unknown internal material structures in traditional continuum mechanics,significantly simplifying the complexity of the problem.The characteristic energy factor is primarily applicable to the predictions of engineering disasters with large scales or well-defined failure zones(e.g.,underground explosions,large-scale surrounding rock deformation,zonal disintegration or pendulum waves,and shear-slip rock bursts in ore pillars),whereas its applicability to highly localized engineering disasters with unknown failure zones(e.g.,strain-type rock bursts)requires further investigation.
陈昊祥;王明洋;李杰;蒋海明
北京建筑大学土木与交通工程学院,北京 100044||军事科学院国防工程研究院目标易损性评估全国重点实验室,河南 洛阳 471023陆军工程大学爆炸冲击与防灾减灾国家重点实验室,江苏 南京 210007陆军工程大学爆炸冲击与防灾减灾国家重点实验室,江苏 南京 210007陆军工程大学爆炸冲击与防灾减灾国家重点实验室,江苏 南京 210007
数理科学
能量源能量汇地下爆炸空穴湮灭特征能量因子
energy sourceenergy sinkunderground explosioncavity annihilationcharacteristic energy factor
《爆炸与冲击》 2026 (2)
23-32,10
国家自然科学基金(52408353)北京市自然科学基金(8222010)军事科学院国防工程研究院目标易损性评估全国重点实验室开放基金(YSX2024KFXY003)
评论