因此,研究纤维波能耗散结构对纤维增强复合材料工程应用具有深远意义。
So, researching wave energy dissipation of fiber structure is significant to the application of fiber reinforced composite in civil engineering.
本文对波浪在非均匀流动中传播时的波能耗散或波高衰减进行了研究。
Energy dissipation or wave height attenuation is analysed theoretically for water waves propagating on a non-uniform current.
结果表明:随着参数条件的改变,自蔓延高温合成过程中燃烧波会出现各种时空有序的耗散结构。
It is shown that with the change of condition parameters in SHS process various time space order combustion waves appear.
利用能量法证明了具耗散边界条件和时间依赖系数的非线性波方程的能量指数衰减性。
By using the perturbed-energy method, the exponential decay of the solution is obtained for the nonlinear wave equations with time-dependent coefficients and dissipative boundary condition.
结果显示,小耗散的存在使孤波的振幅和移速随时间缓慢地减小,孤波宽度则随时间缓慢增大;
The numerical results show that the presence of small dissipation causes a slow decrease of the amplitude and the propagation speed of the solitary waves and slow increase of the solitary wave width.
证明了耗散孤立波方程的惯性分形集的存在性。
The existence of the inertial fractional set is proved for the dissipative soliton equations.
分析了分形维数对波能量耗散的影响规律。
Rule about influence of fractal dimension on wave energy dissipation was analyzed.
应力波能量主要是以热能和塑性变形能耗散。
Stress wave energy is dissipated in form of heat and plastic deformation energy.
我们首先在耗散表象下,证明了我们方案中的四波混频过程可以等效为一个双光子吸收过程,并得到了单光子输出的解析表达式。
We first analytically demonstrate that the four-wave mixing process in our system is equivalent to a two-photon absorption process and single photons will be obtained at the out-put.
计算了剪切流场中阿尔文波的传播过程,以及磁层中阿尔文波的耗散。
The propagation process of the Alfven wave in a shear velocity field is calculated, and the dissipation of Alfven waves in the magnetosphere is given.
计算了剪切流场中阿尔文波的传播过程,以及磁层中阿尔文波的耗散。
The propagation process of the Alfven wave in a shear velocity field is calculated, and the dissipation of Alfven waves in the magnetosphere is given.
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