单元计算的英文

• unit computation

• "单元"英文翻译    unit; unit element; cell; lo ...
• "计算"英文翻译    count; compute; calculate; r ...
• "控制单元计算机" 英文翻译 :    controlled element computer
• "系统单元计算机" 英文翻译 :    system component computer
• "单元计数器" 英文翻译 :    location counter
• "按每消费单元计算的消费量" 英文翻译 :    consumption per consuming unit
• "百元计算机" 英文翻译 :    olpc
• "神经元计算" 英文翻译 :    nc neurocomputing
• "以港元计算" 英文翻译 :    expre ed in hong kong dollar; expressed in hong kong dollar
• "有限元计算" 英文翻译 :    finite element calculation
• "发展单元计划" 英文翻译 :    development projects
• "课程单元计划" 英文翻译 :    course unit plan
• "神经元计算机" 英文翻译 :    neuron computer
• "以美元计算的" 英文翻译 :    dollarwise
• "程序单元计数器" 英文翻译 :    program location counter
• "弹道诸元计算器" 英文翻译 :    ballstic data computer
• "有限元计算机程序" 英文翻译 :    finite element computer program
• "有限元计算理论" 英文翻译 :    finite-element computational theory
• "按美元计算，按金额计算" 英文翻译 :    in dollar terms
• "单元计数器位置计数器" 英文翻译 :    location counter
• "按不变价值美元计算" 英文翻译 :    in constant dollar value; inco tantdollarvalue
• "矢量运算多元计算机" 英文翻译 :    vector arithemtic multiprocessor
• "计算单元" 英文翻译 :    calculating element; computational element; computing element; computing unit
• "标准计算单元" 英文翻译 :    standard computation element
• "电子计算单元" 英文翻译 :    electronic computing units

• For each beam position the amount of phase shift is calculated for each radiating element
  在每个波束位置为每个辐射单元计算相移量。
• Otherwise , the existence of the bolt element adds no trouble on the division of the mesh . based on the aforementioned theory , the relevant formulae and program of fem are developed
  论文中，作者根据等参元理论建立了三结点锚杆单元计算公式，并研制了相应的有限元计算程序。
• Some element results of the model were extraced to determine the values of power dissipation on different surface . thermal resistances theta jc , psi jb and psi jt were also calculated
  在求解温度场分布的基础上提取封装表面单元计算结果进行热平衡分析,比较封装各表面的热量发散比例。
• The acoustic reflections from a submerged piezoelectric / elastic bilaminar sphere shell are studied by applying of the computational software ansys in which the finite element technique is used
  摘要采用有限单元计算软件ansys对无限水域中压电弹性材料复合层球壳的声波反射进行了数值研究。
• Based on the moving least squares method and the finite difference scheme , a new element - free method is proposed and used to simulate horizontal two dimension river flow with complicated boundary
  本文通过引入滑动最小二乘法和有限差分法，得到水动力学无单元计算法并应用于复杂边界的河道水流运动方程。
• The stress fields in misaligned welded joints , " t " type of plate welded joint , flanged beam and perpendicular flanged beam are calculated respectively , and their stress concentration factors formulation are obtained
  采用这两类单元计算了错位板接头、 t型板接头、工字梁焊接钢结构和工字梁十字接头的应力场，得到了相应的理论应力集中系数公式。
• The model with integrated finite element method for whole bridge is relatively detailed , and can calculate stress and displacement of every member and part of whole bridge . so it is an effective method for detailed calculation and analysis of bridge structure behavior
  全桥组合有限单元计算方法建立的模型比较详细，能够计算全桥各构件、各部位的应力与变形，是桥梁结构行为详细计算分析的有效方法。
• This thesis introduced the basic theory of element - free method , and how to trace the crack propagation of rock mass , then simulated the crack propagation of test sample without outside hydraulic pressure , and compared the calculated result with the fact status
  本文介绍了无单元计算方法基本原理及如何应用无单元法对岩体裂纹扩展进行计算追踪，然后应用无单元法模拟试件在无围压条件下水力劈裂裂纹扩展的过程，并与实际情况作了对比分析。
• Secondly , two carbon fiber reinforced composite beams were fabricated , and their modal frequencies were measured by an experiment method . thirdly , delaminations were modeled by pairs of nodes with the same coordinates but different node numbers , while the modal frequencies of these beams with different delamination location and size were computed by an eas piezoelectric solid element . moreover , a novel method combining computational mechanics and neural network was demonstrated for composite health monitoring ; the first five flexure modal frequencies obtained by fem were modified by a primary revising approach and were used to train the neural network
  本文较全面地评述了神经网络的应用模型、改进算法等，编制了bp神经网络程序：制备了纤维增强复合材料试件，并进行实验模态分析；利用坐标相同、节点号不同的方法模拟脱层损伤，基于eas列式的压电固体单元计算了不同脱层损伤情况下的频率信息；针对基于实验数据训练神经网络存在样本不足的缺陷，本文提出了利用有限元方法对含有脱层损伤的复合材料试件进行数值模拟，以前五阶弯曲模态频率构建训练样本的新思路，并提出了一种初步的计算值修正方法，以此构建神经网络的训练样本：将实验模态分析的结果送入训练好的神经网络进行预测，实现了对复合材料梁的脱层损伤的定位和损伤程度的评估。
• It discusses the influence factors of pile groups effect , such as pile space , pile number , pile diameter , pile length and soil parameter etc . subsequently , using linear interpolation function to approximate the soil ' s anti force to piles , the article combines p - y curves with pole system fem . in this way , a new pile - soil interaction element calculated model is designed , the pile - soil interaction element stiffness matrix is deduced , and establishes finite element equation of p - y model , writes the relevant finite element program with matlab language , calculates and analyses pile groups subjected to lateral loads with engineering examples
  随后，本文将p - y曲线法与杆系有限元法相结合，采用线性插值函数来逼近土对桩的约束反力，得到新的桩?土相互作用的单元计算模型，推导了桩?土相互作用的单元刚度矩阵，建立了p - y模型的有限元求解方程，用matlab语言编制了相应的p - y曲线有限元法计算程序，进行横向承载桩的计算分析。