震幅頻率響應 的英文怎麼說

中文拼音 [zhènbīnxiǎngyīng]
震幅頻率響應 英文
amplitudefrequency response
  • : Ⅰ動詞1 (震動) quake; shake; shock; vibrate 2 (情緒過分激動) be greatly excited; be deeply ast...
  • : Ⅰ名詞1. (布帛、呢絨等的寬度) width of cloth 2. (泛指寬度) width; size 3. (姓氏) a surname Ⅱ量詞(用於布帛、呢絨、圖畫等)
  • : Ⅰ形容詞(次數多) frequent Ⅱ副詞(屢次) frequently; repeatedly Ⅲ名詞1 [物理學] (物體每秒鐘振動...
  • : 率名詞(比值) rate; ratio; proportion
  • : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
  • 頻率 : frequency; rate
  1. Some conclusions are drawn : 1 ) effect of inertial force from superstructures on the lateral seismic response of single pile can not be ignored ; 2 ) the lateral seismic response of single pile induced by far - field earthquake are mainly affected by acceleration mass of superstructure > site eigenperiod. it increases with the increment of accele ration and mass of superstructure. as the site characteristic frequency approaches the self - oscillation frequency of the pile, sympathetic vibration occurs and the value of lateral seismic response reaches maximum ; 3 ) as the stiffness ratio of pile to soil increase, the relative displacement of pile to soil increases ; 4 ) the lateral seismic response of fixed - head pile is much smaller than that of free - head pile

    將其解析解與具體的的抗設防烈度和場地特徵周期結合起來,計算分析了成層地基中單樁的橫向地,得到了以下結論: 1 )上部結構慣性力對樁的橫向地的影不可忽略; 2 )成層地基中的單樁的橫向地主要受地基本加速度、場地特徵周期、上部結構質量的影,隨地基本加速度、上部結構質量的增大而增大;場地特徵越接近樁基自振,樁基地越大,等於自振時,由於發生共振現象,樁基值最大; 3 )樁土剛度比越大,樁土之間的相對位移的值越大; 4 )樁頂固接的連接方式,可以有效地降低地時單樁的橫向地
  2. Through studying the working mechanism of the composing, the paper referred the bearing ' s analyzing model and designing flow. through shearing test of high damping rubber, the paper analyzes the influence of shearing shape, shearing strain range and inspiriting frequence on the characteristic parameters ( dynamic shear elastic module, dissipation engineering module, wasted gene ). according to the rule of equivalent energy, the paper gets the hysteretic curve of hdr ' s equivalent bilinear model and parameters ' calculating formula

    本論文通過對這種分離式減支座各組成部分工作機理的研究,提出了該分離式減支座整體的計算分析方法和設計流程;通過高阻尼橡膠剪切試驗,分析了高阻尼橡膠剪切面形狀、剪值、激勵和試件高度對特徵參數(動態剪切彈性模量、耗能模量、損耗因子)的影
  3. It is shown by structural seismic response of four wavelets that littlewood - paley wavelet is not suitable for structural seismic response, because structural response is too small, meyer wavelet is a better wavelet for structural seismic response, for it ' s structural response is agreement with the finite element method, and also harmonic wavelet, structural response under earthquake is a little bigger than finite element method, structural response under odd exponent wavelet is also bigger than finite element method, this method is very simple by wavelet transform, wavelet transform method is different from old methods, one is with which not only knows the effects of earthquake wave detail frequency - band on structural response, but also considers earthquake wave ' s non - stationary of frequency and time - domain value, another is the second mode shape and higher mode shape response that do n ' t attenuate so fast

    通過對這四種小波的結構地分析研究說明: littlewood ? paley小波不適合於用來作結構地分析,因為在littlewood ? paley小波下的結構地太小,不符合實際情況;用meyer小波作結構地分析比較合適,和有限元法的結果比較接近;也可以用諧波小波來作結構地分析,只是在諧波小波下的結果略為偏大;單邊指數小波下的結構地分析比有限元法稍大一點,它通過小波變換大大簡化了結構地分析。用小波變換方法來進行結構地分析和以往方法不同的是:它不僅可以知道地波的具體段對結構反的影,而且同時考慮了地波的值非平穩性以及非平穩性;另外與以前方法得到的結果有差異的是,第二振型及以後的高一點的振型的反沒有以前的方法衰減得快。
  4. When the frequency approaches zero, the factor approaches zero correspondingly ; 2 ) the amplitude of interaction factors changes with the incident angle of rayleigh waves and reaches maximum when is zero. moreover, with the increase of, the wave period shortens apparently ; ( 3 ) the amplitude of interaction factors decreases as the pile spacing increases and approaches to zero when the pile spacing is 15 ; 4 ) the amplitudes of interaction factors increase clearly with the increasing stiffness ratio of pile to soil ; 5 ) the lat eral seismic response of fixed - head pile groups is much smaller than that of free - head pile groups. moreover, the pile - group effects induced by rayleigh waves can be neglected ; 6 ) the lateral seismic response of piles at different location differs from each other

    得到了以下結論: 1 )樁的相互作用因子隨呈周期性變化,在振動比較低的情況下,樁的橫向相互作用因子也較低,當趨近於零時,相互作用因子也趨近於零; 2 )樁的相互作用因子的值隨瑞利波入射角度的變化而變化,在= 0情況下值最大,且隨入射角度的增加,波動的周期明顯縮短; 3 )樁的相互作用因子的值隨著樁與樁間距的增加而減小,至s d = 15時,樁的相互作用因子基本趨近於0 ; 4 )在比較低時,相互作用因子值隨樁土相對剛度比的增加而顯著增加; 5 )樁頂固接可以有效地降低群樁的橫向地值,由瑞利波產生的群樁效可以忽略不計; 6 )群樁中不同樁位的樁的橫向地是不同的,每根樁所在的樁位對其橫向地有很大的影;刀樁數的增加並不能減小樁的橫向動力
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