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为满足机载精确制导弹药小型化、高可靠性方面的要求,设计了一体化闭环光纤惯导/GNSS紧凑型组合导航系统,该样机基于DSP C6747+FPGA浅并行架构,运用自适应卡尔曼滤波算法实现组合导航系统的信息融合,样机整体尺寸为13 cm×14 cm×12 cm。为验证系统性能,搭建了弹载组合导航半实物仿真平台,通过计算机仿真模拟目标信息和炸弹飞行全过程,分析了在组合导航系统辅助下制导炸弹对目标的打击精度,最后对样机进行了地面跑车试验的考核。半实物仿真与地面跑车试验结果表明,该组合导航系统具有较好的实时性和稳定性,导航精度满足精确打击的要求。 相似文献
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A thermal conductivity switch via the reversible 2H–1T′phase transition in monolayer MoTe2 下载免费PDF全文
The two-dimensional(2D) material-based thermal switch is attracting attention due to its novel applications, such as energy conversion and thermal management, in nanoscale devices. In this paper, we observed that the reversible 2H–1T′phase transition in MoTe2 is associated with about a fourfold/tenfold change in thermal conductivity along the X/Y direction by using first-principles calculations. This phenomenon can be profoundly understood by comparing the Mo–Te bonding strength betwe... 相似文献
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全固态电池因其高能量密度和高安全性而成为具有发展前景的下一代储能技术。开发具有高室温离子电导率、优异化学/电化学稳定性、良好正/负极兼容性的固态电解质是实现全固态电池实用化的关键。卤化物固态电解质因其优异的电化学窗口、高正极稳定性、可接受的室温锂离子电导率等优势,受到了广泛的关注。本文通过对近年来卤化物电解质的相关研究进行总结,综述了该类电解质的组成、结构、离子传导路径及制备方法,并分析了金属卤化物电解质的电导率、稳定性特点,归纳了近年来该电解质在全固态电池中具有代表性的应用,并基于以上总结和分析,指出了卤化物固态电解质的研究难点及发展方向。 相似文献
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利用可再生清洁能源将CO2转化为CO和其他小分子是合成含碳燃料的可观方法之一.间歇性可再生能源存储的重要策略之一是将二氧化碳进行电化学还原.选择具有高活性和稳定性的电催化剂对于电化学还原CO2至关重要.在这项研究中,我们使用简单的电沉积方法合成了具有纳米晶枝状结构的CuAu合金电极.各项表征显示原子比约为1∶1的CuA... 相似文献
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采用溶胶-凝胶法制备了MgxZn1-xO(x=0,0.1,0.2,0.3,0.4,0.5)纳米粉体。X射线衍射谱表明:在较高的温度(850℃以上)下退火,MgxZn1-xO纳米粉体从单一的纤锌矿结构相中分离出MgO相的掺杂浓度x约为0.13,且随着x的增加,MgO相含量呈指数型增长。室温光致发光谱显示:MgO相分离对紫外与绿光发射的相对强度有直接的影响,随着MgO相分离的出现,紫外发光峰蓝移,并随着MgO相的增加,紫外发光峰的强度受抑,绿光发光峰变强。样品的室温透过率显示:MgxZn1-xO的禁带宽度在x=0.1时达到最大值并受MgO相分离的影响而减小。 相似文献
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Electro–magnetic control of shear flow over a cylinder for drag reduction and lift enhancement 下载免费PDF全文
In this paper, the electro-magnetic control of a cylinder wake in shear flow is investigated numerically. The effects of the shear rate and Lorentz force on the cylinder wake, the distribution of hydrodynamic force, and the drag/lift phase diagram are discussed in detail. It is revealed that Lorentz force can be classified into the field Lorentz force and the wall Lorentz force and they affect the drag and lift forces independently. The drag/lift phase diagram with a shape of "8" consists of two closed curves, which correspond to the halves of the shedding cycle dominated by the upper and lower vortices respectively. The free stream shear (K 〉 0) induces the diagram to move downward and leftward, so that the average lift force directs toward the downside. With the upper Lorentz force, the diagram moves downwards and to the right by the field Lorentz force, thus resulting in the drag increase and the lift reduction, whereas it moves upward and to the left by the wall Lorentz force, leading to the drag reduction and the lift increase. Finally the diagram is dominated by the wall Lorentz force, thus moving upward and leftward. Therefore the upper Lorentz force, which enhances the lift force, can be used to overcome the lift loss due to the free stream shear, which is also obtained in the experiment. 相似文献
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