1、Studies of the sound radiation and vibration of the ring stiffened cylindrical shell under the circumferential excitation are important to predict the noise of the underwater naval craft.───周向激励下加筋圆柱壳体振动和声辐射特性的研究是预测水下航行器壳体噪声的关键环节。
2、Experimental research of sound excitation on flow of subsonic compressor blade profile in planar cascade tunnel───亚音压气机平面叶栅内流动的声激励试验研究
3、forceful, clear, and smooth reverberated sound as well as special harmonic excitation functions, the noise frequency domain is obviously reduced, thus playing vocal perfectly and easy.───混响声音雄浑、清晰流畅,而且特有的谐波激励功能,能明显改善噪音的频域,使人的声音更加完美,演唱起来更加轻松。
4、flow induced oscillation in a cavity exposed to external high speed flow and its suppression by means of sound excitation at the leading edge of the cavity are experimentally studied.───实验研究了矩形空腔在外部高速气流作用下诱导的空腔内流动振荡问题,以及从空腔前缘加入纯音声激励以抑制空腔内流动振荡的技术。
sound excitation(意思翻译)
声激励
sound excitation(相似词语短语)
1、excitation transfer───激发移动;激发转移
2、excitation pattern───兴奋型
3、excitation contraction coupling───兴奋收缩连接;兴奋收缩偶联
4、chondritic sound───软骨音
5、daphnetin excitation───瑞香素激发
6、sound───n.声音;噪音;音响;海峡;听力范围;医用探子;无线电广播;音响效果;adj.合理的;无损的;有能力的;充足的;彻底的;熟睡的;资金充实的;(非正式)非常棒的;严厉的;健全的;adv.彻底地,酣畅地;v.(使)发声;听起来;鸣警报;听(诊);回响;探测;试探;宣告;(医)用探子检查;(尤指鲸鱼)潜入深海
7、cracking sound───噼里啪啦;开裂声
8、excitation transfer theory───兴奋迁移理论
9、excitation cfp───励磁cfp
sound excitation(双语使用场景)
1、Studies of the sound radiation and vibration of the ring stiffened cylindrical shell under the circumferential excitation are important to predict the noise of the underwater naval craft.───周向激励下加筋圆柱壳体振动和声辐射特性的研究是预测水下航行器壳体噪声的关键环节。
2、Experimental research of sound excitation on flow of subsonic compressor blade profile in planar cascade tunnel───亚音压气机平面叶栅内流动的声激励试验研究
3、forceful, clear, and smooth reverberated sound as well as special harmonic excitation functions, the noise frequency domain is obviously reduced, thus playing vocal perfectly and easy.───混响声音雄浑、清晰流畅,而且特有的谐波激励功能,能明显改善噪音的频域,使人的声音更加完美,演唱起来更加轻松。
4、flow induced oscillation in a cavity exposed to external high speed flow and its suppression by means of sound excitation at the leading edge of the cavity are experimentally studied.───实验研究了矩形空腔在外部高速气流作用下诱导的空腔内流动振荡问题,以及从空腔前缘加入纯音声激励以抑制空腔内流动振荡的技术。