深潜器

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  • Deep submersibles;bathyscaphe;bathyscaph
深潜器深潜器
  1. 基于Kriging模型的深潜器多球交接耐压壳结构优化

    Structural optimization of multiple intersecting spherical pressure hulls based on Kriging model

  2. 卡梅隆的“深海挑战者”(DeepseaChallenger)号深潜器价值大约1亿美元,其中很多都是卡梅隆自掏腰包。

    Cameron 's submersible , the Deepsea Challenger , is valued at around $ 100 million , much of which Cameron paid for out-of-pocket .

  3. 相比之下,科研人员的“阿尔文”(ALVIN)号深潜器在服役50年后,在2010年退役进行改造升级。

    By contrast , ALVIN , researchers ' go-to deep-sea submersible , was decommissioned for a refit in 2010 after five decades in the field .

  4. 通过深潜器,资深研究员lonnylundsten带领的研究小组在加利福尼亚海岸离水面3316米-3399米深的海底发现了一种被命名为竖琴的海绵(学名:chondrocladialyra)。

    Using these deep-diving vessels , a team of researchers led by senior research technician Lonny lundsten discovered a species of harp sponge called chondrocladia Lyra off the coast of California , at depths of 3316 3399m .

  5. 深潜器设计的比重量分析法

    The Analytical Method of Relative Weight Proportion for the Submersible Design

  6. 深潜器深度控制系统分析与设计

    Analysis and Design of the Depth Controlling System of a Submersible

  7. 深水半潜式钻井平台总体强度计算技术研究多功能水下遥控深潜器

    Study on Global Strength Calculation Technology of Deepwater Semi-submersible Drilling Platform

  8. 深潜器大开孔半球封头设计

    Design Method for Hemispherical Shell with Hole of Deep-Diving Vehicle

  9. 深潜器大开口球形耐压操纵舱结构模型的力学性能

    Structural Static Performance of Pressure Control Cabin Model with a Big Viewport

  10. 一种虚拟现实的深潜器运动仿真系统

    Motion simulation system of deep-sea Human Occupied Vehicle based on virtual reality

  11. Ⅱ型深潜器工作母船及电气设计

    The workboat for type ⅱ submersible and its electric design

  12. 深潜器操纵性自航模试验研究

    Testing Research on the manoeuvre of the self-propelled submersible model

  13. 深潜器设计特征分析

    Analysis of special considerations in the design of submersibles

  14. Ⅱ型深潜器工作母船是一艘内河水面动力定位型船舶。

    The workboat for type ⅱ of submersible is a dynamic positioning river ship .

  15. 深潜器对水下金属物的综合探测

    Comprehensive Detection of Underwater Metal Objects by Submersibles

  16. 深潜器半波浮力平衡微调和开关式定深悬浮控制的研究

    Research of Half Wave Buoyance Balance Adjustment and Switching Depth & keeping Control of Submersibles

  17. 基于参数化有限元的深潜器主框架优化设计

    Variable-drive finite element method based optimal design for the main frame of deep manned submersible

  18. 深潜器与作业工具之间的通讯有如下特点:非接触式、双工、近距离、低速率、低功耗。

    The communication has some properties such as contactless , duplex , low baud rate , low power consumption .

  19. 深潜器以及一些高压输液管道本身受到流体静压力的作用,在振动时静压力会对其振动性能产生一定的影响。

    The hydrostatic pressure may exert an influence on vibration performance of deep submergence vehicles and high-pressure pipes subjected to hydrostatic pressure .

  20. 鲍文指出,“深海挑战者”号下潜了大约10900米,而目前的标准版科研深潜器只能下潜6500到7000米。

    The Deepsea Challenger dove to approximately 10900 meters ; current standard-issue research equipment can only go to 6500 or 7000 meters , Bowen said .

  21. 其中水体异常的观测是最为快捷有效的,而深潜器的直接观测是现代海底热液活动研究必不可少的。

    Among this , hydrothermal plume measurement is the fast and effective method , submersible mobile is absolutely necessary in the study of modern hydrothermal activities .

  22. 将在线式化学传感器经过封装由载人深潜器带到深海去观测热液及热液扩散流的环境的技术已经得到多次成功的应用。

    Encapsulated chemical sensors had already been successfully carried to deep sea in order to observe the hydrothermal fluid or the diffuse plume by the Deep Submergence Vehicle .

  23. 深海压力会加速有机涂层的失效,也是导致海洋船舶、石油平台、深潜器等损坏的原因之一。

    The pressure of seawater could accelerate the deterioration process of organic coating , and it may lead to the damage of ships , oil platforms and submersible boats .

  24. 总结了五种不同气流组织形式下舱室空间速度场、温度场、氧气浓度场以及二氧化碳浓度场的特征,为深潜器空气环境控制系统设计提供一定的依据。

    The feature of velocity , temperature , oxygen and carbon dioxide field were summarized under the five air distributions . It can support the design of air environmental control for manned submersibles .

  25. 该系统已在潜艇、深潜器、救生钟等耐压结构的疲劳性能试验研究中发挥了重要作用,研究成果与论文曾在东京第Ⅲ届太平洋结构钢会议上发表。

    The system has played an important role in the experimental studies on fatigue performance of undewater pressure structures , such as submarines , deep sea vehicles and rescue chambers and its relevant achievements and papers have been presented at the Third Pacific Structure Steel Conference , Tokyo , Japan .

  26. 对接技术是利用深潜救援潜器(DSRV)实现援潜救生的关键技术。

    Mating technology is the key technology when utilized in submarine rescue by DSRV .

  27. 深潜救援潜器新型对接技术的仿真研究水下作业机械手与工具自动对接技术研究

    Research on Mating Technology between Underwater Manipulator and Automatic Toolkit