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Home > chinese-english > "纵骨" in English

English translation for "纵骨"

longitudinal section plan

Related Translations:
纵列:  columntandem
纵轨枕:  stringer
天纵:  jiangmei
纵管:  ductus longitudinalislongitudinal tubule
纵压:  end compression
纵长:  lengthwiselonongate
纵模:  longitudianl modelongitudinal mode
纵条纹:  vertical stripe
纵传:  depass
纵大梁:  under beam girder
Example Sentences:
1.Fatigue assessment of longitudinal stiffeners of 8530teu container ship
集装箱船纵骨疲劳强度评估
2.Fatigue assessment of longitudinals of fpso
纵骨疲劳寿命分析
3.It is recommended that anodes be not fitted to face plates of higher tensile steel longitudinals
例1 :建议阳极尽可能不装在高强度钢纵骨的面板上。
4.It is recommended that anodes be not fitted to face plates of higher tensile steel l0ngitudinals
例1 :建议阳极尽可能不装在高强度钢纵骨的面板上。
5.Matlab procedure is coded to compute the far - field sound pressure levels of the shell excited by radial point force . the influences of modal truncation , stringers , bulkheads and damping on the shell ' s far - field sound pressure are analyzed , laying down the basis for accurate analysis of the sound radiation from fluid - loaded reinforced double cylindrical shells
本文用matlab编制程序求解了单层壳在径向激励力作用下的远场声压级,分析了模态截断数、纵骨、舱壁板、结构阻尼等因素对壳体远场辐射声压的影响,为准确计算加筋双层壳在水下振动和声辐射特性奠定了基础。
6.Abstract : fatigue cracks in ship hull structures are most likely to occur in the highly stressed structural details . the conventional fatigue analysis is largely dependent on the determination of stress concentration factors ( scfs ) at the locations considered . this paper is concerned with the stress concentration of cutout in transverse web for longitudinal stiffener . a series of finite element models is carried out for the stress analysis of predefined structural details . the tabulated scfs of typical cutouts ( abs tanker rules ) in transverse web for longitudinal stiffeners are presented based on the finite element analysis ( fea ) results
文摘:疲劳裂纹往往发生在船舶结构的局部高应力区,而疲劳分析结果通常取决于任何准确确定结构的应力集中系数.本文研究为铺设纵骨而在舱壁板上开孔的应力集中,采用有限元方法对预先给定的结构进行应力分析,基于有限元计算结果给出了舱壁板典型开孔(参见abs油船规范)的应力集中系数表
7.Then fourier transformation is employed to solve equations of motion of the rings , bulkheads , stringers and fluid respectively , with their reactions ( moments ) expanded by the shell ' s in - vacuo modes . by means of continuity conditions on the interfaces between the shell and the stiffeners as well as the fluid , and inverse fourier transformation , the modal reactions ( moments ) are finally expressed by the shell ' s modal velocities
然后用fourier变换分别求解环肋、舱壁、纵骨和流场的运动方程,将它们对壳体的作用力(力矩)用壳体周向模态展开,利用它们与壳体在连接处位移连续条件以及fourier逆变换得到用壳体速度表示的模态相互作用力(力矩) 。
8.Typical examples show that the results of quasi - homocentric structure are better than traditional structure , the results of finite element are better than that of approximate analytical methods , monolayer stiffened results are better than two - double longitudinals stiffened optimum results
典型实例表明,准同心圆式结构优化设计方案优于传统结构设计方案,基于有限元优化设计方案优于基于解析法的优化设计方案,液舱壳板单层加纵骨结构优化设计方案优于双层加纵骨结构优化设计方案。
9.The submarine structure is simplified to single or double infinite cylindrical shell stiffened with rings , bulkheads and stringers , focusing on underwater sound radiation from the single shell . the shell motion is described by donnell ' s theory including excitation forces and reactions of rings , bulkheads , stringers and fluid , which leads to the fluid - structure coupling vibration equation . expressing displacements by velocities , applying modal expansion circumferentially and fourier transformation longitudinally result in the shell ' s modal equations of motion
壳体的运动方程采用较为简单的donnell理论描述,运动方程中包括了激励力、加筋结构(环肋、舱壁和纵骨)和流场对壳体的作用力,从而组成流场-结构的耦合振动方程,并进一步将方程中的位移用速度表示,然后沿轴线方向进行fourier变换,将速度和各项荷载沿圆周方向进行模态展开,得到了壳体振动的模态运动方程。
10.These four ship ' s class societies all use two holds length finite element modal near the central section . they mesh the finite element modal mainly according to the distance of longitudinal frames , we call this fine mesh finite element modal . the elements in the modal are mainly shells and beams
这四家船级社相同之处是都采用了船舯附近的两舱段长的有限元计算模型,有限元模型单元的划分主要依据纵骨间距和肋距,即所谓的细网格模型,结构单元以板壳单元和梁元居多。
Similar Words:
"纵构架式船体" English translation, "纵构架式船体结构" English translation, "纵构架式的" English translation, "纵构件" English translation, "纵构件数" English translation, "纵骨的" English translation, "纵骨加强板格" English translation, "纵骨架" English translation, "纵骨架结构" English translation, "纵骨架结构系统" English translation