Anti-sink ability

简明释义

抗沉性

英英释义

例句

1.During the experiment, the scientists measured the Anti-sink ability of different materials under pressure.

在实验中，科学家测量了不同材料在压力下的抗沉能力。

2.Engineers are testing the Anti-sink ability of various coatings to improve the performance of underwater vehicles.

工程师正在测试各种涂层的抗沉能力，以提高水下车辆的性能。

3.The new material has excellent Anti-sink ability, making it ideal for use in buoyant devices.

这种新材料具有优异的抗沉能力，非常适合用于浮力装置。

4.This life jacket is designed with high Anti-sink ability to ensure safety in emergencies.

这款救生衣设计了高抗沉能力，以确保在紧急情况下的安全。

5.The Anti-sink ability of this foam helps it stay afloat even when submerged in water.

这种泡沫的抗沉能力使其即使在水中浸泡也能保持漂浮。

作文

In the world of engineering and technology, various terms and concepts emerge that define the capabilities of materials and structures. One such term is Anti-sink ability, which refers to the capacity of a material or system to resist sinking or submerging in a fluid environment. This characteristic is particularly important in fields such as marine engineering, aerospace, and construction. Understanding the Anti-sink ability of materials can lead to advancements in design and safety measures in various applications.To illustrate the significance of Anti-sink ability, let us consider the case of ships and submarines. These vessels are designed to operate in water, and their buoyancy is critical for their performance. The Anti-sink ability of a ship determines how well it can stay afloat despite external forces such as waves, cargo weight, and even potential damage. Engineers must carefully calculate the buoyancy and structural integrity of these vessels to ensure they possess adequate Anti-sink ability.Another example can be found in the field of aerospace engineering. Aircraft must also exhibit Anti-sink ability when encountering turbulence or other adverse conditions. The design of wings and fuselage plays a crucial role in maintaining lift and preventing the aircraft from descending unexpectedly. By studying the Anti-sink ability of different materials used in aircraft construction, engineers can enhance safety and performance, ultimately leading to more reliable air travel.In addition to transportation, the concept of Anti-sink ability extends to construction materials used in buildings and infrastructure. For instance, in areas prone to flooding, the Anti-sink ability of foundation materials is vital. Structures must be designed to withstand water pressure and prevent sinking into unstable ground. This is why engineers often conduct soil tests and utilize specific materials that exhibit high Anti-sink ability to ensure the longevity and safety of buildings.Furthermore, the Anti-sink ability is not limited to physical materials; it can also apply to systems and processes. For example, in environmental engineering, the Anti-sink ability of ecosystems is crucial for maintaining biodiversity. Healthy ecosystems can resist degradation and remain functional despite external pressures such as pollution or climate change. Understanding the Anti-sink ability of these natural systems can inform conservation efforts and help mitigate the impacts of human activity.In conclusion, the term Anti-sink ability encompasses a broad range of applications across various fields. Whether it is the buoyancy of ships, the lift of aircraft, or the stability of buildings, understanding and enhancing Anti-sink ability is essential for safety and efficiency. As technology continues to advance, further research into the Anti-sink ability of materials and systems will undoubtedly lead to innovative solutions and improved designs in engineering and beyond.

在工程和技术的世界中，各种术语和概念不断涌现，定义了材料和结构的能力。其中一个术语是抗沉能力，指的是材料或系统在流体环境中抵抗下沉或淹没的能力。这个特性在海洋工程、航空航天和建筑等领域尤为重要。理解材料的抗沉能力可以推动设计和安全措施的进步。为了说明抗沉能力的重要性，让我们考虑船只和潜艇的案例。这些船只被设计用来在水中操作，而它们的浮力对其性能至关重要。船只的抗沉能力决定了它在波浪、货物重量甚至潜在损坏等外部力量影响下能否保持漂浮。工程师必须仔细计算这些船只的浮力和结构完整性，以确保它们具备足够的抗沉能力。另一个例子可以在航空工程领域找到。飞机在遇到气流或其他不利条件时也必须表现出抗沉能力。机翼和机身的设计在维持升力和防止飞机意外下降方面发挥着关键作用。通过研究不同材料在飞机制造中的抗沉能力，工程师可以提高安全性和性能，最终导致更可靠的航空旅行。除了交通运输，抗沉能力的概念还扩展到建筑和基础设施中使用的建筑材料。例如，在易受洪水影响的地区，基础材料的抗沉能力至关重要。结构必须设计成能够承受水压力，并防止在不稳定的地面上沉降。这就是为什么工程师通常进行土壤测试，并利用具有高抗沉能力的特定材料，以确保建筑物的耐久性和安全性。此外，抗沉能力不仅限于物理材料；它也可以应用于系统和过程。例如，在环境工程中，生态系统的抗沉能力对维持生物多样性至关重要。健康的生态系统能够抵御退化，并在外部压力（如污染或气候变化）下保持功能。理解这些自然系统的抗沉能力可以为保护工作提供信息，并帮助减轻人类活动的影响。总之，术语抗沉能力涵盖了各个领域广泛的应用。无论是船只的浮力、飞机的升力，还是建筑物的稳定性，理解和增强抗沉能力对于安全和效率至关重要。随着技术的不断进步，进一步研究材料和系统的抗沉能力无疑将导致工程及其他领域的创新解决方案和改进设计。