undocking
简明释义
n. 出坞;驶离码头
v. 使(航天器)分离;出坞;(使)驶离码头(undock 的现在分词)
英英释义
The process of separating a spacecraft or vessel from a docking mechanism or structure. | 将航天器或船只与对接机制或结构分离的过程。 |
单词用法
脱离顺序 | |
脱离机动 | |
脱离时间 | |
脱离命令 | |
成功脱离 | |
脱离阶段 | |
脱离事件 | |
脱离操作 |
同义词
| 分离 | 宇宙飞船将从空间站分离。 | ||
| 脱离 | 脱离后,卫星将开始自己的轨道。 | ||
| 脱钩 | 脱钩过程顺利且协调良好。 |
反义词
| 对接 | 这艘航天器正在与空间站对接。 | ||
| 连接 | 这两艘船在港口连接。 |
例句
1.After its undocking, the Zvezda service module will be waiting for the next docking of a European cargo on Feb. 23.
星辰“号服务舱现在正等待本月23号与欧洲的一艘货运飞船对接。”
2.Russia says its Progress unmanned cargo spacecraft will begin scientific experiments Friday after undocking from the International space Station.
俄罗斯表示,俄罗斯“进步号”无人驾驶货运飞船与国际空间站分离后,将于星期五开始进行科学实验。
3.Russia says its Progress unmanned cargo spacecraft will begin scientific experiments Friday after undocking from the International space Station.
俄罗斯表示,俄罗斯“进步号”无人驾驶货运飞船与国际空间站分离后,将于星期五开始进行科学实验。
4.The captain announced that undocking 脱离对接 would commence in five minutes.
船长宣布脱离对接将在五分钟内开始。
5.The spacecraft is scheduled for undocking 脱离对接 from the International Space Station tomorrow.
这艘宇宙飞船计划明天从国际空间站脱离对接。
6.After a successful mission, the satellite will begin undocking 脱离对接 procedures.
在成功完成任务后,卫星将开始脱离对接程序。
7.The robotic arm was used to assist in the undocking 脱离对接 of the module.
机械臂被用来协助模块的脱离对接。
8.During the undocking 脱离对接, the crew must ensure all systems are functioning properly.
在脱离对接期间,船员必须确保所有系统正常运行。
作文
In the realm of space exploration, the term undocking refers to the process of separating a spacecraft from a docking station or another spacecraft. This procedure is crucial for various missions, including resupply missions to the International Space Station (ISS) and crew rotations. The undocking process requires precision and careful planning, as it involves the coordination of multiple systems to ensure a safe departure. Astronauts and mission control teams work together to monitor the spacecraft's systems and execute the undocking sequence flawlessly.One of the most notable instances of undocking occurred during the Apollo missions. After spending time in lunar orbit or on the Moon's surface, the Apollo Lunar Module had to undock from the Command Module before descending to the lunar surface. This maneuver was critical, as it allowed astronauts to explore the Moon while leaving the Command Module in orbit. The successful undocking of the Lunar Module demonstrated the engineering prowess of NASA and the bravery of the astronauts involved.In modern space missions, undocking has become a routine operation. For instance, when the ISS receives cargo from a visiting spacecraft, the craft must undock after completing its mission. This process typically involves a series of checks to ensure that all systems are functioning correctly. Once the spacecraft is cleared for undocking, it slowly backs away from the ISS, often performing a series of maneuvers to ensure a safe distance is maintained.The significance of undocking extends beyond mere logistics; it symbolizes the transition from one phase of a mission to another. For astronauts, undocking can be an emotional moment, as it represents both the end of their stay at the ISS and the beginning of their journey back to Earth. The excitement of returning home is often tempered by the challenges that lie ahead, including re-entry into the Earth's atmosphere.Moreover, undocking is not limited to human spaceflight. Robotic missions also involve undocking procedures. For example, satellites often need to undock from their launch vehicles to begin their operational phases. These robotic undocking events are meticulously planned and executed, ensuring that the satellite can successfully deploy its instruments and begin its mission.As space exploration continues to evolve, the concept of undocking will likely expand to include new technologies and methods. With the advent of commercial space travel and the increasing number of private companies entering the field, the undocking process may see innovations that enhance safety and efficiency. Future missions may incorporate automated undocking systems that reduce the reliance on human intervention, allowing for more complex operations and greater flexibility in mission planning.In conclusion, undocking is a fundamental aspect of space missions, representing a critical juncture in the journey of spacecraft and their crews. Whether it involves astronauts returning from the ISS or satellites deploying into orbit, the undocking process is a testament to the advancements in aerospace technology and human ingenuity. As we look towards the future of space exploration, understanding the intricacies of undocking will be essential for both professionals in the field and enthusiasts alike.
在太空探索的领域中,术语undocking指的是将航天器从对接站或另一航天器上分离的过程。这个程序对于各种任务至关重要,包括国际空间站(ISS)的补给任务和机组人员轮换。undocking过程需要精确和仔细的规划,因为它涉及多个系统的协调,以确保安全离开。宇航员和任务控制团队共同努力,监测航天器的系统,并无缝执行undocking序列。一个最著名的undocking实例发生在阿波罗任务期间。在月球轨道或月球表面停留一段时间后,阿波罗登月舱必须从指令舱undock,然后降落到月球表面。这个机动至关重要,因为它允许宇航员探索月球,同时将指令舱留在轨道上。成功的登月舱undocking展示了NASA的工程才能和参与宇航员的勇气。在现代太空任务中,undocking已成为一项常规操作。例如,当国际空间站收到来自访客航天器的货物时,该航天器在完成任务后必须undock。这个过程通常涉及一系列检查,以确保所有系统正常运行。一旦航天器获得undocking的许可,它会缓慢地从国际空间站后退,通常执行一系列机动,以确保保持安全距离。undocking的重要性不仅限于物流;它象征着任务一个阶段向另一个阶段的过渡。对于宇航员来说,undocking可能是一个情感时刻,因为它既代表着他们在国际空间站逗留的结束,也标志着他们返回地球旅程的开始。回家的兴奋常常被即将面临的挑战所掩盖,包括重新进入地球大气层。此外,undocking并不限于载人航天飞行。机器人任务也涉及undocking程序。例如,卫星通常需要从其发射载具undock以开始其操作阶段。这些机器人的undocking事件经过精心计划和执行,确保卫星能够成功部署其仪器并开始其任务。随着太空探索的持续发展,undocking的概念可能会扩展到包括新技术和方法。随着商业太空旅行的出现和越来越多的私人公司进入这一领域,undocking过程可能会看到增强安全性和效率的创新。未来的任务可能会采用自动化的undocking系统,减少对人工干预的依赖,从而允许更复杂的操作和更大的任务规划灵活性。总之,undocking是太空任务的基本方面,代表着航天器及其机组人员旅程中的关键节点。无论是宇航员从国际空间站返回,还是卫星进入轨道,undocking过程都是航空航天技术进步和人类智慧的证明。展望未来的太空探索,理解undocking的复杂性对于该领域的专业人士和爱好者都至关重要。
