1、

The Influence of Shell on Blast Shock Wave Intensity

壳体对爆炸空气冲击波强度的影响

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2、

The results show that increasing the quality concentration of local oxygen in ignition areas can accelerate chemical reaction rate, enhance the combustion wave intensity and shorten the time and distance of ignition-detonation process.

结果表明:提高点火室局部氧气的质量浓度能在点火后加速化学反应速率,增强燃烧波强度,缩短点火起爆的时间和距离。

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3、

That the influence of shell on blast shock wave intensity lies on the local shell mass or local shell thickness at which the fragments will be produced, not the full mass of shell has been pointed out in the paper.

本文指出,壳体对爆炸空气冲击波强度的影响取决于产生壳体破片部位的壁厚(质量),而不是壳体的全部质量。

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4、

The fragment velocity depends on local thickness of shell, the thicker or the heavier is the local shell, and the bigger the influence of shell on shock wave intensity is.

破片速度与壳体厚度有关,壳体越厚或质量越大,对空气冲击波强度的影响越显著。

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5、

Preliminary observation of the hemodynamic changes of primary hypertension with wave intensity

应用波强技术初步评价原发性高血压患者血流动力学变化

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6、

The wave intensity change equations are applied with the purpose of studying the detonation attenuation.

目的在于利用瓦斯爆轰的波强度变化方程研究掘进巷道瓦斯爆轰的衰减规律。

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7、

at high flight mach number, the performance of the forebody/ inlets designed by the two methods is approximate. at low flight mach number, the starting performance of forebody/ inlet designed by the method of constant shock wave intensity is better.

采用等激波强度和等激波角度方法设计的进气道在高飞行马赫数下的性能相近,在低飞行马赫数下,采用等激波强度方法设计的进气道起动性能较优。

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8、

Comparison of wave shape, FFT analysis and knock intensity value between the knock and non-knock signals are made.

对爆震与非爆震两种信号进行了波形对比、快速傅里叶变换(FFT)分析和爆震强度评价。

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9、

Passive millimeter-wave ( PMMW) imaging system utilizes the differences of radiant intensity of different objects in the scene to achieve the goal of imaging.

毫米波无源成像系统利用场景中不同目标辐射亮温强度的差异进行成像。

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10、

Because changing the shape of cross sections of cylindrical gratings can alter the distribution of high-frequency field and strengthen the intensity of electromagnetic wave in the interaction area. Three shapes of cylindrical grating section are discussed, including the inverted trapezoidal cross-section, rectangular and trapezoidal cross-section.

由于改变槽截面形状可以改变高频场的分布,增强互作用处电磁波的场强,所以设计了三种槽截面形状的圆柱光栅,包括倒梯形槽截面、矩形槽截面和梯形槽截面。

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11、

The intensity distribution of the standing wave is analyzed.

分析了驻波强度分布;

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12、

Intensity Analysis of Direct Wave and Ground Miscellaneous Wave of FM Radio Station

调频广播台直达波与地杂波强度分析

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13、

Electromagnetic Radiation Field Intensity Evaluation and Shenzhen Medium Wave Radio Station Case Analysis

电磁辐射场强估算与深圳中波电台实例分析

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14、

The other scheme is evanescent-wave atomic guiding by using three single-mode fibers, and calculate the intensity distribution of the evanescent light-wave in the triangular hollow space and the optical potential for guided cold atoms.

其二是利用三根单模光纤来实现原子波导的方案,计算了三根单模光纤束组成的类正三角形中空区域中的消逝波光强分布以及该中空区域的冷原子光学囚禁势。

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15、

Discussion of Earthquake Intensity Prediction by the Number of Electromagnetic Wave Pulse

用电磁波脉冲数值预报地震强度的探析

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17、

Non-linear Effects of the Propagation of High Intensity Sound Wave in the Air

高声强波在空气中传播的非线性效应

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18、

The Stokes formula and non integrable phase factor of the particle's wave-function are expressed by using intensity of the weak and electromagnetic gauge fields.

应用弱电规范场场强表述斯托克斯公式及粒子波函数的不可积相位因子。

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19、

The math function of the relationship between the ultrasonic wave amplitude and the magnetic induction intensity is established. The electromagnetic acoustic transducer is optimized using uniform experimental design, and the miniaturization of the transducer is realized.

本文建立磁感应强度与分子振动幅值的关系函数,用均匀实验设计对电磁超声传感器进行优化设计,实现了电磁超声传感器的小型化。

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20、

Using a photon counting apparatus as a device to measure light intensity, wave particle dualism of light is demonstrated by measuring photon distribution of double slit diffraction.

用光子计数仪作光强检测装置,通过测量衍射后的光子计数的空间分布来演示光的波粒二象性。

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