surface insubmersibility

简明释义

水上抗沉性

英英释义

例句

1.The concept of surface insubmersibility is crucial in designing life rafts that can withstand capsizing.

在设计能够承受翻覆的救生筏时，表面不沉性的概念至关重要。

2.The yacht's hull was engineered for maximum surface insubmersibility, providing peace of mind for sailors.

这艘游艇的船体经过工程设计，以实现最大的表面不沉性，让水手们安心。

3.Our research focuses on improving surface insubmersibility in recreational watercraft.

我们的研究集中在提高休闲水上交通工具的表面不沉性。

4.Engineers are testing materials for their surface insubmersibility to create more reliable floating devices.

工程师正在测试材料的表面不沉性以制造更可靠的浮动设备。

5.The new design of the boat emphasizes surface insubmersibility to ensure safety during rough waters.

新设计的船强调了表面不沉性以确保在恶劣水域中的安全。

作文

In the realm of engineering and design, the concept of surface insubmersibility plays a crucial role, especially in the development of various aquatic vehicles and structures. This term refers to the ability of an object to remain buoyant and above the water surface, despite external pressures or conditions that might otherwise lead to submersion. Understanding this principle is essential for engineers who are tasked with creating vessels that can withstand the harsh realities of marine environments while ensuring safety and functionality.The importance of surface insubmersibility cannot be overstated. For instance, consider the design of modern submarines. While their primary function is to operate underwater, they must also possess the capability to surface safely and efficiently. The principles of surface insubmersibility guide the design of these vessels, ensuring that they can rise to the surface without compromising their structural integrity or risking the lives of the crew onboard.Moreover, the concept extends beyond military applications. In the world of recreational boating, surface insubmersibility is a key factor in the design of yachts and personal watercraft. These vessels must not only be aesthetically pleasing but also safe and reliable on the water. Engineers utilize materials and designs that enhance buoyancy, allowing boats to float even when they encounter rough seas or unexpected situations.In addition to boats and submarines, surface insubmersibility is relevant in the construction of floating structures such as oil rigs and research platforms. These installations must remain stable and above water to function effectively. Engineers apply the principles of buoyancy and stability, ensuring that these structures can withstand the forces of waves and currents while maintaining their operational capabilities.Furthermore, the understanding of surface insubmersibility has implications for environmental sustainability. With rising sea levels and increasing storm intensity due to climate change, the design of coastal infrastructure must take into account the potential for flooding. By incorporating surface insubmersibility principles, engineers can create buildings and roads that are resilient to such challenges, thus protecting communities and ecosystems.In conclusion, the concept of surface insubmersibility is integral to various fields, from military engineering to recreational boating and environmental design. As we continue to innovate and adapt to changing conditions, the principles surrounding this concept will remain vital in ensuring safety, functionality, and sustainability in our aquatic endeavors. Understanding and mastering surface insubmersibility is not just a technical requirement; it is a responsibility that engineers and designers must embrace to create a safer and more resilient future on the water.

在工程和设计领域，表面不沉性的概念发挥着至关重要的作用，尤其是在各种水上交通工具和结构的开发中。这个术语指的是一个物体能够保持浮力并高于水面，尽管外部压力或条件可能导致其沉没。理解这一原理对于负责创造能够承受海洋环境严酷现实的船只的工程师至关重要，同时确保安全和功能性。表面不沉性的重要性不容小觑。例如，考虑现代潜艇的设计。虽然它们的主要功能是在水下操作，但它们也必须具备安全有效地浮出水面的能力。表面不沉性的原理指导着这些船只的设计，确保它们能够在不妨碍结构完整性或危及船员生命的情况下浮出水面。此外，这一概念超越了军事应用。在休闲航海的世界中，表面不沉性是游艇和个人水上交通工具设计的关键因素。这些船只不仅必须具有美观的外观，还必须在水上安全可靠。工程师利用材料和设计来增强浮力，使船只即使在遇到恶劣海况或意外情况时也能漂浮。除了船只和潜艇，表面不沉性在浮动结构的建造中同样相关，例如石油钻井平台和研究平台。这些设施必须保持稳定并高于水面，以有效运作。工程师应用浮力和稳定性的原理，确保这些结构能够承受波浪和水流的力量，同时保持其操作能力。此外，对表面不沉性的理解对环境可持续性也有影响。由于气候变化导致海平面上升和风暴强度加大，沿海基础设施的设计必须考虑到洪水的潜在风险。通过结合表面不沉性原理，工程师可以创建抵御这些挑战的建筑和道路，从而保护社区和生态系统。总之，表面不沉性的概念在多个领域中至关重要，从军事工程到休闲航海和环境设计。随着我们不断创新和适应变化的条件，围绕这一概念的原则在确保我们水上努力的安全性、功能性和可持续性方面将继续至关重要。理解和掌握表面不沉性不仅是技术要求；这是工程师和设计师必须承担的责任，以创造一个更安全、更具韧性的水上未来。