unsinkability calculation

简明释义

不沉性计算

英英释义

例句

1.Before launching, the team finalized the unsinkability calculation to guarantee passenger safety.

在发射之前，团队完成了不沉计算以保证乘客的安全。

2.The engineers conducted an unsinkability calculation to ensure the ship could withstand rough seas.

工程师进行了不沉计算以确保船只能够承受恶劣海况。

3.During the design phase, the unsinkability calculation was a critical factor for the yacht's approval.

在设计阶段，不沉计算是游艇批准的关键因素。

4.The captain relied on the unsinkability calculation when deciding to sail through the storm.

船长在决定穿越风暴时依靠了不沉计算。

5.A thorough unsinkability calculation is essential for all new vessels entering the market.

对所有新进入市场的船只进行全面的不沉计算是必不可少的。

作文

The concept of unsinkability calculation is often associated with the maritime industry, particularly in the context of ship design and safety. This term refers to the mathematical and engineering assessments used to determine whether a vessel can remain afloat under various conditions. The tragic sinking of the Titanic in 1912 serves as a stark reminder of the importance of these calculations, as it was once deemed 'unsinkable' due to its advanced safety features. However, the disaster highlighted that even the most sophisticated designs can fail without proper understanding and application of unsinkability calculation.In essence, unsinkability calculation involves evaluating factors such as buoyancy, weight distribution, and the structural integrity of a ship. Engineers must consider how much water a vessel can take on before it becomes submerged. This includes assessing the volume of water that can enter the hull and how it affects the overall stability of the ship. Advanced computer simulations and models are now employed to perform these calculations with greater accuracy than ever before.Moreover, the unsinkability calculation is not just about preventing sinking; it also plays a crucial role in ensuring the safety of passengers and cargo. For instance, modern cruise ships are designed with multiple watertight compartments that can contain flooding in case of an emergency. Each compartment's capacity is meticulously calculated to ensure that the ship can stay afloat even if one or more sections are compromised.In addition to the technical aspects, there is also a psychological component to the unsinkability calculation. The perception of safety among passengers can influence their experience on board. When people believe they are on a ship that is 'unsinkable,' they may feel more relaxed and enjoy their journey. However, this mindset can be dangerous if it leads to complacency regarding safety protocols. Therefore, educating passengers about the realities of maritime safety and the limitations of unsinkability calculation is essential.Furthermore, the implications of unsinkability calculation extend beyond individual vessels to the entire shipping industry. As climate change and rising sea levels pose new challenges, engineers and designers must adapt their calculations to account for increasingly severe weather conditions. This requires a reevaluation of existing standards and practices to ensure that ships can withstand the forces of nature.In conclusion, the unsinkability calculation is a vital aspect of maritime safety that encompasses engineering principles, safety protocols, and passenger perceptions. While no vessel can truly be deemed unsinkable, rigorous calculations and innovative designs can significantly reduce the risk of sinking. As technology continues to evolve, so too will our understanding of how to keep ships safe and afloat in an unpredictable world.

“不沉计算”这个概念通常与海事行业相关，特别是在船舶设计和安全的背景下。这个术语指的是用于确定一艘船在各种条件下是否能够保持漂浮的数学和工程评估。1912年泰坦尼克号的悲惨沉没清楚地提醒我们这些计算的重要性，因为它曾因其先进的安全特性而被认为是“不沉的”。然而，这场灾难突显出即使是最复杂的设计也可能因为对不沉计算的理解和应用不足而失败。从本质上讲，不沉计算涉及评估浮力、重量分布和船体结构完整性等因素。工程师必须考虑一艘船在进水前能够承受多少水。这包括评估进入船体的水量及其对船只整体稳定性的影响。现在采用先进的计算机模拟和模型，以比以往更高的准确性进行这些计算。此外，不沉计算不仅仅是为了防止沉没；它在确保乘客和货物安全方面也发挥着至关重要的作用。例如，现代游轮设计有多个防水舱室，可以在紧急情况下控制进水。每个舱室的容量经过精心计算，以确保即使一个或多个部分受到损坏，船仍然能够漂浮。除了技术方面外，不沉计算还有心理层面的内容。乘客对安全的感知会影响他们在船上的体验。当人们相信自己乘坐的是一艘“不沉”的船时，他们可能会感到更加放松，享受旅程。然而，如果这种心态导致对安全协议的麻痹大意，那就可能是危险的。因此，教育乘客关于海事安全的现实以及不沉计算的局限性是至关重要的。此外，不沉计算的影响超出了单个船只，扩展到了整个航运行业。随着气候变化和海平面上升带来了新的挑战，工程师和设计师必须调整他们的计算，以应对日益严重的天气条件。这需要重新评估现有标准和实践，以确保船只能够抵御自然力量。总之，不沉计算是海事安全的重要方面，涵盖了工程原理、安全协议和乘客感知。虽然没有任何船只可以真正被称为不沉，但严格的计算和创新的设计可以显著降低沉没的风险。随着技术的不断发展，我们对如何在不可预测的世界中保持船只安全和漂浮的理解也将不断深化。