manned pressure capsule

简明释义

载人压力密封舱

英英释义

例句

1.The astronauts will conduct experiments inside the manned pressure capsule 载人压力舱 during their mission.

宇航员将在他们的任务中在载人压力舱 manned pressure capsule内进行实验。

2.During the simulation, the crew practiced emergency procedures inside the manned pressure capsule 载人压力舱.

在模拟过程中，机组人员在载人压力舱 manned pressure capsule内练习应急程序。

3.Engineers are testing the structural integrity of the manned pressure capsule 载人压力舱 before launch.

工程师们正在发射前测试载人压力舱 manned pressure capsule的结构完整性。

4.The design of the manned pressure capsule 载人压力舱 allows for safe travel to low Earth orbit.

该载人压力舱 manned pressure capsule的设计允许安全地旅行到低地球轨道。

5.The manned pressure capsule 载人压力舱 is equipped with life support systems for long-duration missions.

该载人压力舱 manned pressure capsule配备了用于长期任务的生命支持系统。

作文

In the realm of space exploration, the term manned pressure capsule refers to a specially designed vehicle that is capable of carrying astronauts safely through the harsh conditions of space. These capsules are essential for missions that require human presence in environments where atmospheric pressure is significantly lower than on Earth. The design and engineering behind a manned pressure capsule involve rigorous testing and advanced technology to ensure the safety and comfort of the crew. Historically, the concept of a manned pressure capsule has evolved from early models like the Mercury and Gemini capsules used by NASA in the 1960s. These initial designs were relatively simple, focusing primarily on the basic needs of astronauts, such as life support systems and structural integrity. As technology advanced, so did the complexity and capabilities of these capsules. Modern examples include the SpaceX Crew Dragon and Boeing CST-100 Starliner, which integrate cutting-edge technology to enhance safety and efficiency.One of the critical features of a manned pressure capsule is its ability to maintain a stable internal environment. This includes regulating oxygen levels, temperature, and humidity, all of which are vital for the well-being of astronauts during their missions. The capsule must also withstand the extreme conditions of launch and re-entry, including intense heat and pressure changes. Engineers utilize materials that can endure these stresses while providing adequate insulation and protection.Furthermore, the manned pressure capsule must be equipped with various systems that allow astronauts to communicate with mission control and navigate through space. Advanced avionics and computer systems play a crucial role in ensuring that the crew can operate the capsule effectively and respond to any emergencies that may arise.The importance of a manned pressure capsule extends beyond just transportation; it serves as a mobile laboratory for scientific research. During missions, astronauts conduct experiments that can only be performed in microgravity, contributing valuable data to our understanding of space and its effects on the human body. This research is vital for future long-duration missions, such as those planned for Mars.As we look to the future of space exploration, the role of the manned pressure capsule will continue to be pivotal. With the increasing interest in commercial space travel and the potential for colonizing other planets, the design and functionality of these capsules will likely undergo further innovation. Ensuring the safety of astronauts while maximizing the operational capabilities of the capsule will be paramount as we venture further into the cosmos.In conclusion, the manned pressure capsule represents a significant achievement in aerospace engineering. It embodies the culmination of decades of research and development aimed at overcoming the challenges posed by space travel. As we continue to explore the universe, these capsules will remain at the forefront, enabling humanity to reach new heights and discover what lies beyond our planet.

在太空探索领域，术语载人压力舱指的是一种专门设计的飞行器，能够安全地承载宇航员穿越太空的恶劣环境。这些舱体对于需要人类在大气压力远低于地球的环境中进行的任务至关重要。载人压力舱的设计和工程涉及严格的测试和先进的技术，以确保机组人员的安全和舒适。历史上，载人压力舱的概念从20世纪60年代NASA使用的水星号和双子座舱等早期模型演变而来。这些初始设计相对简单，主要关注宇航员的基本需求，如生命支持系统和结构完整性。随着技术的进步，这些舱体的复杂性和功能性也随之提高。现代的例子包括SpaceX的Crew Dragon和波音的CST-100 Starliner，它们集成了尖端技术，以增强安全性和效率。载人压力舱的一个关键特性是其维持稳定内部环境的能力。这包括调节氧气水平、温度和湿度，所有这些对于宇航员在任务期间的健康至关重要。舱体还必须能够承受发射和再入过程中的极端条件，包括强烈的热量和压力变化。工程师利用能够耐受这些压力的材料，同时提供足够的绝缘和保护。此外，载人压力舱还必须配备各种系统，使宇航员能够与任务控制中心进行通信并在太空中导航。先进的航空电子设备和计算机系统在确保机组人员能够有效操作舱体并应对可能出现的任何紧急情况方面发挥着至关重要的作用。载人压力舱的重要性不仅限于交通运输；它还是科学研究的移动实验室。在任务期间，宇航员进行只能在微重力下进行的实验，为我们理解太空及其对人体影响提供了宝贵的数据。这项研究对于未来计划的长期任务（例如前往火星）至关重要。展望太空探索的未来，载人压力舱的角色将继续至关重要。随着商业太空旅行的兴趣日益增加以及殖民其他星球的潜力，这些舱体的设计和功能性可能会进一步创新。在我们更深入地进入宇宙的过程中，确保宇航员的安全，同时最大限度地提高舱体的操作能力，将是重中之重。总之，载人压力舱代表了航空航天工程的一项重大成就。它体现了数十年研究和开发的成果，旨在克服太空旅行所带来的挑战。随着我们继续探索宇宙，这些舱体将始终处于最前沿，使人类能够达到新的高度，发现我们星球之外的未知。