共查询到19条相似文献,搜索用时 46 毫秒
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利用脉冲大电流装置产生随时间变化平滑上升的磁压力,实现对平面、柱面等不同结构样品的磁驱动准等熵(斜波)压缩,为极端条件下材料动力学研究提供了一种偏离Hugoniot状态热力学路径的加载手段。本文从磁驱动准等熵加载装置、实验技术、数据处理方法等方面综述了磁驱动准等熵加载技术研究近十年的新进展,评述了利用磁驱动准等熵加载技术和方法开展极端条件下材料高压状态方程、高压强度与本构关系、相变与相变动力学等方面研究的进展情况,展望了磁驱动准等熵加载技术发展及其在材料动力学、武器物理和高能量密度物理等方面的应用前景。 相似文献
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在一维弹塑性反应流体力学拉格朗日编码SSS 的基础上扩充编制成功的一维磁流体力学计算编码SSS/MHD,可以计算模拟磁驱动等熵压缩(ICE) 实验中多介质、多空腔的不同厚度平行样品构形(台阶靶) 运动,并且把磁流体计算与模拟脉冲功率驱动源的集中参数外电路方程组直接耦合,不依赖于实验当时测量的驱动电流(电压) 数据,直接根据原始数据对实验样品的力学和电磁学运动过程和各种参数剖面进行数值模拟. 介绍了对于纯铝、钽和塑料粘结炸药等3 种性能不同材料的台阶靶样品ICE 实验的计算模拟,得到了与激光速度干涉测量的不同厚度样品后自由面(或光学窗口界面) 速度历史十分符合的结果,对于实验结果的分析和实验设计的改进具有重要意义. 旨在为磁驱动实验系统的校核、设计和实验构形改进提供有一定预测能力、功能比较完善的计算模拟研究手段. 相似文献
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材料等熵压缩磁压加载技术是当今美、俄、法等国家用于材料完全物态方程和动力学性能研究的重要和热门手段.文章综述了国外材料等熵压缩磁压加载技术研究进展,分析了磁压加载等熵压缩的基本原理.在此基础上提出了适合国内实验室研究、压力范围50GPa以内的小型材料等熵压缩磁压加载脉冲功率发生装置的设计指标,即回路放电电流上升时间500ns以内、峰值1MA以上.进而利用OrCAD/Pspice软件对装置的电感、电容等基本参数进行了优化设计,基于此提出了达到设计指标装置的工作方式. 相似文献
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柱面内爆磁通量压缩发生器是利用炸药内爆压缩其内部磁通量至轴线附近小体积内从而实现超高磁场,传统的单级装置因受到金属套筒内爆失稳等影响性能指标受限。开展了多级内爆磁压缩技术研究,突破多项关键技术,包括研制特殊结构的密绕螺线管、脉冲功率源及大电流放电开关等,具备在直径135 mm套筒空间内实现20 T以上初始磁场产生能力,并建立了动态磁光测量系统。利用磁流体力学编码SSS-MHD开展多级装置设计,计算显示,设计的多级装置能够将约42%的初始磁通量压缩至轴线附近直径7 mm的空间内。最终研制成功多级内爆磁压缩装置CJ-150,在亚立方厘米以上空间实现轴向峰值磁场强度906 T,数据不确定度5.35%。10余发动态考核实验显示,CJ-150装置工作稳定,能够满足物理实验需要。利用经实验验证的磁流体模型计算显示,CJ-150具备1 000 T以上超强磁场产生能力,能够对大尺寸样品实现500 GPa以上的准等熵加载。 相似文献
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磁驱动准等熵压缩实验是研究材料偏离Hugoniot状态高压物性和动力学行为的重要实验技术之一,开展不确定量化评估具有重要意义和价值。基于Monte Carlo原理,结合磁驱动准等熵压缩实验过程分析、Lagrange分析和特征线正向数据处理方法建立了适用于此类实验的Monte Carlo不确定度量化评估方法,实现利用磁驱动准等熵压缩实验获取材料声速、应力、应变等物理量以及状态方程和本构关系等物理模型的不确定度量化评估。利用建立的不确定度评估方法,对文献中已开展的钽、铜和NiTi合金的磁驱动准等熵压缩实验结果进行不确定度量化评估与分析。结果表明,基于本文中方法的评估结果与国外文献以相同原理得到的评估结果一致。对基于CQ-4装置开展的NiTi合金磁驱动准等熵压缩实验的评估结果表明,设计的磁驱动准等熵压缩实验是一种可靠的精密物理实验。在此基础上,深入讨论了磁驱动准等熵压缩实验的误差相关性和敏感性。结果表明:台阶样品厚度和粒子速度的测量是影响实验精度的主要因素。 相似文献
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磁驱动准等熵压缩下LY12铝的强度测量 总被引:2,自引:0,他引:2
高压高应变率加载下材料的强度研究一直是冲击动力学的一个难题,目前动态载荷下材料的高压强度测量主要是基于平板撞击技术,冲击温升和应变率效应对材料强度的影响难以分离. 基于小型磁驱动加载装置CQ-4,开展了磁驱动准等熵压缩下LY12 铝的声速和强度测量的实验研究,讨论了考虑加载-卸载过程时磁驱动压缩实验的负载电极设计、实验样品设计、数据处理与分析等内容,并获得了12 GPa 压力范围沿加载-卸载路径的声速变化和峰值压力点的强度数据. 相似文献
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探索了一维平面磁驱动发射飞片的实验技术,实现了在一个样品上同时发射两个不同厚度的飞片,并利用VISAR测试技术同时获得了两个飞片自由面完整的速度历史。其中在回路放电峰值电流密度为823 kA/cm的情况下,在上升前沿2 s内将厚度为0.38 mm、直径为4 mm的铝飞片发射到1.5 km/s,作用在飞片上的最大磁压力为4.25 GPa。显微分析发现,在飞片速度较高的情况下,飞片与镗孔底部剪切破坏的断口上,由于凝固过程中过冷度大有非晶等现象出现。进一步促进了磁驱动等熵加载、发射飞片实验技术、物态方程研究的开展。 相似文献
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基于磁偶极子的磁场梯度张量局部缩并及试验验证 总被引:2,自引:0,他引:2
基于磁偶极子的磁场梯度张量缩并理论虽然可较好地描述磁源,不受测量系统的朝向的影响,但在实际的磁场梯度张量测量中通常仅可测得部分磁场梯度参数,没有获得磁场梯度张量中的所有张量分量,如何有效利用这些部分磁场梯度参量,已成为目前磁场梯度张量缩并理论及在磁场定位的应用中亟需解决的问题。基于磁偶极子理论提出磁场梯度张量局部缩并的方法,给出磁场梯度张量的局部模量的概念,分析了磁场梯度张量的局部模量及相关参数的三维空间分布规律,结果表明:局部模量CXY及kXY值随着g先增大后减小,在g=39°时取最大值,在g=90°时取最小值;局部模量C_Z及k_Z值随着g先减小后增大,在g=63°时取最小值,在g=0°时取最大值。提出磁场梯度张量局部模量中重要参数的近似计算公式,并通过试验进行验证。试验结果表明,试验值与理论计算值基本一致,可为磁场梯度张量局部缩并理论的应用提供依据和参考。 相似文献
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The effect of a non-uniform parallel high magnetic field on flow control characteristics is investigated experimentally for a magnetic fluid single-phase flow and an air—magnetic fluid two-phase flow in a vertical channel. It is found that as the magnetic field strength is increased, the friction factor of the single-phase flow increases significantly. For the two-phase flow, the friction pressure loss and the head pressure loss, which is smaller than the friction loss, are negligibly small compared with the magnetic pressure loss. In the case where air is injected 27.9d upstream from the maximum magnetic field, the air flow is blocked by the magnetic force in the entrance of the magnetic field, which leads to increases in both local void fraction and pressure drop there. In the case where air is injected 1.43d downstream from the maximum magnetic field, the air flow is accelerated, resulting in a decrease in void fraction and an increase in pressure rise. In the latter case and under the present range of experimental conditions, the magnetic pumping head reaches 0.02 MPa at the highest, and the maximum circulation flow rate reaches twice as high as non-magnetically driven flow rate. 相似文献
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Summary Investigation of time dependent behaviour of a polystyrene melt is carried out with the aid of a new apparatus for biaxial extension. Use is made of the method of two impinging fluid streams guided by lubricated trumpet shaped metal walls. The flow birefringence is measured in the plane of symmetry and, at the same time, the force is measured which tends to separate the trumpets. The linear stress-optical relation turns out to be valid in this new flow geometry. An accurate value for the stress-optical coefficient can be determined from the relaxation experiments. The stress build-up as calculated from the optical measurements, is compared with the pertinent result of the theory of linear viscoelasticity. For the desired interconversion of dynamic moduli use is made of the approximation by Schwarzl and Struik. The steady state measurements are checked by the results of the non-linear model of Acierno et al.With 16 figures and 2 tables 相似文献
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Buoyant flows often contain regions with unstable and stable thermal stratification from which counter gradient turbulent
fluxes are resulting, e.g. fluxes of heat or of any turbulence quantity. Basing on investigations in meteorology an improvement
in the standard gradient-diffusion model for turbulent diffusion of turbulent kinetic energy is discussed. The two closure
terms of the turbulent diffusion, the velocity-fluctuation triple correlation and the velocity-pressure fluctuation correlation,
are investigated based on Direct Numerical Simulation (DNS) data for an internally heated fluid layer and for Rayleigh–Bénard
convection. As a result it is decided to extend the standard gradient-diffusion model for the turbulent energy diffusion by
modeling its closure terms separately. Coupling of two models leads to an extended RANS model for the turbulent energy diffusion.
The involved closure term, the turbulent diffusion of heat flux, is studied based on its transport equation. This results
in a buoyancy-extended version of the Daly and Harlow model. The models for all closure terms and for the turbulent energy
diffusion are validated with the help of DNS data for internally heated fluid layers with Prandtl number Pr = 7 and for Rayleigh–Bénard convection with Pr = 0.71. It is found that the buoyancy-extended diffusion model which involves also a transport equation for the variance
of the vertical velocity fluctuation gives improved turbulent energy diffusion data for the combined case with local stable
and unstable stratification and that it allows for the required counter gradient energy flux. 相似文献
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Abbas Sharifi Saber Yekani Motlagh Homayoun Badfar 《International Journal of Computational Fluid Dynamics》2013,27(4-5):248-259
ABSTRACTIn this paper, effects of two wires magnetic field on heat transfer and biomagnetic fluid flow in an aneurysm have been investigated using the ferrohydrodynamics model. Using the finite volume method and the SIMPLE algorithm, the governing equations have been discretised. Simulations have been carried out for both conditions of wires in the same and opposite directions and different magnetic numbers of 41 and 82. Results show that the magnetic field causes a decrease in heat transfer of blood flow towards the walls. Moreover, major energy loss or pressure drop, arising from mean wall shear stress, decreases but local or minor energy loss, arising from aneurysm vortexes, increases. Furthermore, risk factors of aneurysm rupture is decreased under the effect of the magnetic field. The effective contact surface between drug-coated magnetic nanoparticles and the aneurysm tissue may increase and residence time of drug on the cells of the region would decrease. 相似文献
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The onset of periodic and aperiodic convection in a binary nanofluid saturated rotating porous layer is studied considering constant flux boundary conditions. The porous medium obeys Darcy’s law, while the nanofluid envisages the effects of the Brownian motion and thermophoresis. The Rayleigh numbers for stationary and oscillatory convection are obtained in terms of various non-dimensional parameters. The effect of the involved physical parameters on the aperiodic convection is studied graphically. The results are validated in comparison with the published literature in limiting cases of the present study. 相似文献
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拉压性能不同材料全量型本构关系及厚壁筒的应力分析 总被引:1,自引:0,他引:1
将经典全量理论作了推广,考虑了应力状态及塑性体积变形对拉压性能不同材料的塑性行为的影响。应用该本构模型分别计算了厚壁筒在内压和外压作用下的应力分布。给出了径向应力、环向应力和轴向应力沿壁厚的分布图。将本文的计算解与拉压性能相同(不考虑体积变形、强化曲线唯一)的幂函数强化材料的厚壁筒的理论解进行了比较。结果表明,材料的拉压性能不同对厚壁筒的环向应力和轴向应力影响较大。因此,对于拉压性能不同材料,考虑到其对应力状态及塑性体积变形敏感时,是不能将其简化成拉压性能相同、体积不可压缩、强化曲线唯一的理想材料。 相似文献
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Analysis of energy consumption in microwave and convective drying process of multi-layered porous material inside a rectangular wave guide 总被引:1,自引:0,他引:1
W. JindaratP. Rattanadecho S. Vongpradubchai 《Experimental Thermal and Fluid Science》2011,35(4):728-737
This work applies the first law of thermodynamics to estimate the ratio of energy utilization in microwave drying process using a rectangular waveguide. Two porous packed bed systems are considered such as attaching fine bed on coarse bed (F-C) and attaching coarse bed on fine bed (C-F). The effects of layered configuration and layered thickness on drying rate, power absorbed efficiency, specific energy consumption (SEC), and energy efficiency are studied in detail. The results show that the variations of all parameters have strongly affected on microwave penetration depth and power absorbed within the packed bed. Furthermore, F-C bed with equal layer thickness corresponds to great energy efficiency. 相似文献