神经网络半主动TLCD对偏心结构的减震控制

本文采用在结构水平双向设置TLCD半主动控制装置的方法，对偏心结构在多维地震作用下的振动控制问题进行研究。首先利用多层前向神经网络，对偏心结构在双向地震输入下的两个平动方向的反应进行预测，然后在建立起半主动控制策略的基础上，利用神经网络根据控制准则调整TLCD的开孔率，实现以结构的半主动控制，数值结构表明，这种方法能对结构的平动反应和扭转反应都能起到的较好的减震效果。     

含偏心点声源的随钻测井声场模拟和地层各向异性反演研究

地层横波波速测量以及各向异性评价是目前随钻声波测井应用及方法研究的难题之一.针对这些问题,本文试图从钻铤上的偏心点声源在各向异性地层中的响应出发,寻求和探讨解决方案.我们基于三维有限差分模拟的随钻测井信号,研究了偏心点声源在水平横向各向同性(HTI)慢速地层井孔中激发声波传播规律,研究结果表明:在HTI地层中偏心点声源能够同时激发出快、慢两种波形,并且此两种波形中主要分别包含快、慢弯曲波,由于与钻铤波的耦合作用,其速度总是分别小于地层快、慢横波波速,所以无法直接用于地层横波波速的测量.但根据进一步的灵敏度分析可知当在3kHz以上时,它们的相速度分别对地层参数水平和垂直剪切模量(c66和c44)最为敏感.基于此特性,本文提出一种基于解析近似解的最小二乘拟合法,能够通过快、慢波频散曲线反演地层横波波速,所测值误差小于3%,并且具有很好的容错率和稳定性;进而由横波速度反演值评价地层各向异性大小.最后,地层快横波偏振方位可以利用垂直于偏心声源方向的偶极采集的信号能量变化曲线来获取.     

近场地震动下偏心结构的减震控制研究

本文选用远场宽频地震Kanai-Tajimi模型与近场地震He-Agrawal速度脉冲模型,对现有的典型近场地震记录进行了非线性数值拟合。通过调整脉冲分量与宽频分量的比值,得到了不同脉冲分量的地震波,分析了在合成近场地震波作用下,设置粘滞阻尼器时偏心结构的动力反应,并与未设置阻尼器时结构的地震响应进行了对比,同时也对能反映结构偏心特性的参数进行了分析研究。通过数值模拟与仿真分析,得到了一些对实际工程设计有意义的结论。     

Forced vibration analysis of an offshore tower carrying an eccentric tip mass with rotary inertia due to support excitation

Dynamic responses of structures due to earthquake excitation are the important problems in engineering, thus, the information concerned is plenty. However, most of the literature is relating to the discrete methods, particularly to the finite element method (FEM), and the one relating to the method combining both the “continuous” and “discrete” models is rare. The objective of this paper is to provide some information in this respect. First, the analytical solution for the natural frequencies and normal mode shapes of a “continuous” tower, without contacting water (or “dry” tower), carrying an eccentric tip mass possessing rotary inertia is determined. Next, the partial differential equation of motion for the forced vibration of the tower, contacting water (or “wet” tower), subjected to support excitation is transformed into a matrix equation by using the last natural frequencies and normal modes shape of the freely vibrating dry tower. Finally, the numerical integration method is used to solve the matrix equation to yield the seismic response of the wet tower. In theory, the mode superposition method is correct only if the total number of modes considered approaches infinity, however, numerical results of this paper reveal that superposition of only the lowest six modes will yield excellent results to be very close to the corresponding ones obtained from the conventional FEM. For this reason, the CPU time required by the presented approach is less than 5% of that required by the conventional FEM.     

声波远探测中偏心声源的辐射以及接收波场研究

通过最速下降积分法获得了充液井孔中偏心点声源激发的井外波场的远场渐近解;利用互易性获得井外存在反射体时井内偏心接收的波场渐近解,渐近解结果与有限差分的结果吻合;分析了声源频率、偏心距离以及方位角对波场辐射与接收的影响.计算发现：声源频率是影响井外波场的主导因素,声源频率较低时,偏心点声源激发的远场波场与偏心距离无关,可以将偏心点声源视为中心声源;声源频率较高时,偏心点声源激发的远场波场与中心声源之间存在不可忽略的差异,且频率越高、偏心距离越大,差异越大.计算还发现：采用偏心声源与偏心接收时,辐射波场与接收波场的幅度都具有方位角依赖性.最后我们给出利用反射波幅度变化来消除反射体方位角180°不确定性的算例.     

偏心偶极子漂移速率的计算与分析

本文根据国际地磁参考场模型ＤＧＲＦ１９４５－１９８５、ＩＧＲＦ１９９０和ＳＶ１９９０－１９９５、计算近期偏心偶极位置和漂移速度,并对西向漂移速度进行了分析,结果表明,１９７０年以前,漂移速度是连续下降,到１９７０最低值,以后,又呈上升趋势,这一现象与地磁长期变化加速度的突然变化即“Ｊｅｒｋ”有很好的相关性。     

土-偏心结构平扭耦联弹塑性反应参数全过程分析

为了了解在强震作用下偏心结构平扭耦联效应,对土-偏心结构相互作用体系进行了平扭耦联弹塑性反应参数弹塑性分析。本文建立考虑SSI的单层单向偏心结构模型,将地基土假定为弹簧,通过拉格朗日能量法推导了结构体系的动力特性方程,采用静力弹塑性(Pushover)分析方法,利用MATLAB软件编程,分析了土体和结构均由弹性到弹塑性的变化对相互作用体系和上部结构的影响,以及体系由弹性到弹塑性平扭耦联效应的变化过程,发现土体由弹性进入塑性对体系的动力特性影响很大,并且得到了相互作用体系相对振型频率随扭平频率比和偏心率的变化规律。     

任意形状截面双向偏心受压砌体构件计算探讨

结构设计规范中有关单向偏心受压砌体构件的计算方法和材料力学的一般原理，对任意形状面双向偏心、受压砌体构件的计算方法进行了探讨，给出了相应的计算公式。     

A multi-disciplinary study of the 2002–03 Etna eruption: insights into a complex plumbing system

The 2002–03 Mt Etna flank eruption began on 26 October 2002 and finished on 28 January 2003, after three months of continuous explosive activity and discontinuous lava flow output. The eruption involved the opening of eruptive fissures on the NE and S flanks of the volcano, with lava flow output and fire fountaining until 5 November. After this date, the eruption continued exclusively on the S flank, with continuous explosive activity and lava flows active between 13 November and 28 January 2003. Multi-disciplinary data collected during the eruption (petrology, analyses of ash components, gas geochemistry, field surveys, thermal mapping and structural surveys) allowed us to analyse the dynamics of the eruption. The eruption was triggered either by (i) accumulation and eventual ascent of magma from depth or (ii) depressurisation of the edifice due to spreading of the eastern flank of the volcano. The extraordinary explosivity makes the 2002–03 eruption a unique event in the last 300 years, comparable only with La Montagnola 1763 and the 2001 Lower Vents eruptions. A notable feature of the eruption was also the simultaneous effusion of lavas with different composition and emplacement features. Magma erupted from the NE fissure represented the partially degassed magma fraction normally residing within the central conduits and the shallow plumbing system. The magma that erupted from the S fissure was the relatively undegassed, volatile-rich, buoyant fraction which drained the deep feeding system, bypassing the central conduits. This is typical of most Etnean eccentric eruptions. We believe that there is a high probability that Mount Etna has entered a new eruptive phase, with magma being supplied to a deep reservoir independent from the central conduit, that could periodically produce sufficient overpressure to propagate a dyke to the surface and generate further flank eruptions.Editorial responsibility: J. Donnelly-Nolan