Click on a vessel element to make it current.
点击导管元件使其(内部液体)流动。
With the increase of relative humidity, both length and diameter of vessel element increased, as well as the frequency of rays.
随着空气相对湿度的增加,导管分子长度和直径均增大,射线频率减小。
ObjectiveTo clarify the vessel element characteristics of Sophora japonica so to enrich the basic data of cultivation and resources survey.
目的澄清国槐导管分子特征,丰富其人工栽培及资源鉴定的基础性资料。
And the activity of PAL coincided with the increasing tendency of the Numbers of vessel element in the plumular axis or juvenile stem of robinia and its degree of lignification as well.
PAL活力与刺槐胚轴或幼茎的维管系统即导管分子的数量和木质化程度增长趋势相一致。
The process of vessel element ' s promotion, formation and connection in primary xylem of antirrhinum majus, a model plant, was observed through micropolariscope and bright - field microscope.
利用偏光显微镜和明场显微镜,首次报道了模式植物金鱼草幼苗初生维管系统木质部导管分子的发育、形成和连接过程。
The finite element analysis model of cylinder and vessel head structures was established.
建立了高压容器筒体与封头结构的有限元分析模型。
This paper applies the three-dimensional finite element method to the analysis of the stress for steam expanding vessel with tangential pipe, and the stress distribution has been obtained.
采用三维有限元方法对蒸汽扩容器与切向接管联接的关键部位进行了应力分析,获得了该部位的应力分布。
The proposed criterion is used to evaluate plastic loads in pressure vessel design by analysis using elastic-plastic finite element analysis to guard gross plastic deformation of pressure vessel.
通过接触单元来数值模拟啮合齿的接触过程,建立了基于整体有限元分析的齿啮式快开压力容器塑性载荷计算方法。
Using finite element procedure ANSYS, we analyze caisson gravity wharf acted by the vessel load in the static condition.
利用有限元分析软件ANSYS,对沉箱重力式码头在船舶荷载作用下的沉箱静态力学性能进行数值分析。
In this paper the finite element analysis is applied to simulate the elastic-plastic numerical value for the high-pressure full wrapped composite pressure-vessel.
本文针对高压全缠绕复合材料压力容器,应用有限元分析系统对其应力偏大的筒身应力进行了弹塑性非线性数值模拟。
Statical analysis with finite element method is performed to pressurized pressure vessel of titanium alloys.
对型号主体系统中的钛合金气瓶进行有限元静力学分析。
The heat load to the vacuum vessel thermal shield (VVTS) is analyzed by FLUENT finite element software in order to demonstrate that the design of cooling tubes is reliable.
采取有限元法对内冷屏的受热状况进行了计算分析,以验证内冷屏氦冷却管道设计方案的可靠性。
There are much surface crack on vessel steel plate, then data statistics and analysis, measures of modify element and heat time, etc are taken, achieved significant results.
对生产容器钢的过程中,轧制后的钢板表面有表面纵裂产生,然后经过数据统计和分析,提出修改钢种成分控制、加热时间等预防措施,取得明显效果。
In this paper the finite element method is combined with optimization. The strengthening optimization is put forward on the basis of the limit analyse method of pressure vessel strengthening design.
将有限元应力分析方法与优化设计方法相结合,提出了基于受压容器开口补强的极限分析理论和优化设计思想。
All pipelines has been optimized and less crunode based on history customers' feedbacks. The pipe between element and vessel has been redesigned and confirmed.
所有的管路全部进行优化,减少结点,同时根据历史客户使用体验的反馈,对主机与油气桶间的管道进行了加固及设计变更。
This paper presents the analysis of strength, stiffness and stability of the vessel by finite element method. An improved design scheme was developed.
这里采用有限元法对辅舱进行了强度、刚度和屈曲分析,并提出了改进方法,为设计人员直接采用。
This paper presents the analysis of strength, stiffness and stability of the vessel by finite element method. An improved design scheme was developed.
这里采用有限元法对辅舱进行了强度、刚度和屈曲分析,并提出了改进方法,为设计人员直接采用。
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