deck buoyancy

简明释义

甲板浮力

英英释义

例句

1.The design of the ship's structure enhances its deck buoyancy 甲板浮力, allowing it to carry more cargo safely.

船体结构的设计增强了其 甲板浮力，使其能够安全地运输更多货物.

2.To ensure safety, we need to calculate the deck buoyancy 甲板浮力 before loading any heavy equipment.

为了确保安全，我们需要在装载任何重型设备之前计算 甲板浮力.

3.We must regularly inspect the deck buoyancy 甲板浮力 features to prevent any potential hazards.

我们必须定期检查 甲板浮力 特性，以防止任何潜在危险.

4.During the training session, the instructor demonstrated the importance of deck buoyancy 甲板浮力 in maintaining a balanced load.

在培训课程中，讲师演示了 甲板浮力 在保持平衡负载中的重要性.

5.The engineer explained how the deck buoyancy 甲板浮力 affects the stability of the vessel during rough seas.

工程师解释了如何影响船只在恶劣海况下稳定性的 甲板浮力.

作文

The concept of deck buoyancy is crucial in the field of naval architecture and marine engineering. It refers to the ability of a vessel's deck to remain afloat under various conditions, ensuring stability and safety for both the ship and its occupants. Understanding deck buoyancy is not only important for shipbuilders but also for sailors and marine operators who need to be aware of how their vessels will perform in different sea states.When designing a ship, engineers must consider the weight distribution across the deck. A well-designed deck will have sufficient deck buoyancy to support the load without compromising the vessel's stability. This is particularly important when the ship is loaded with cargo, as uneven weight distribution can lead to capsizing or excessive tilting. Therefore, calculating the deck buoyancy is essential during the design phase to ensure that the ship can handle various loading scenarios.In addition to weight distribution, the materials used in constructing the deck also play a significant role in its buoyancy. Lightweight yet strong materials can enhance the deck buoyancy of a vessel, allowing it to carry more cargo without risking stability. Modern ships often use advanced composite materials to achieve this balance between strength and weight, which is vital for maintaining optimal performance at sea.Moreover, environmental factors such as waves, wind, and currents can affect a ship's deck buoyancy. For instance, high waves can cause water to wash over the deck, potentially leading to flooding and loss of buoyancy. Sailors must be trained to recognize these conditions and take appropriate measures to maintain the integrity of the deck and overall vessel stability. This includes securing cargo, adjusting ballast, and sometimes even changing the ship’s course to navigate through rough waters safely.The importance of deck buoyancy extends beyond just the physical structure of the ship. It also has implications for safety regulations and maritime law. Ships must meet specific buoyancy standards to be considered seaworthy. Regulatory bodies conduct rigorous inspections to ensure that vessels comply with these standards, as failure to do so can result in severe consequences, including fines or being barred from sailing.In conclusion, deck buoyancy is a fundamental aspect of ship design and operation. It encompasses various factors, from weight distribution and materials used to environmental influences and regulatory compliance. A thorough understanding of deck buoyancy is essential for anyone involved in the maritime industry, whether they are designing ships, operating them, or ensuring they meet safety standards. As the industry continues to evolve with new technologies and materials, the principles of deck buoyancy will remain a cornerstone of effective and safe marine operations.

“甲板浮力”这一概念在船舶建筑和海洋工程领域至关重要。它指的是船只甲板在各种条件下保持漂浮的能力，确保船只及其乘员的稳定性和安全性。理解“甲板浮力”不仅对造船者重要，对水手和海洋操作员同样重要，他们需要意识到船只在不同海况下的表现。在设计船舶时，工程师必须考虑甲板上的重量分布。设计良好的甲板将具有足够的“甲板浮力”来支撑负荷，而不影响船舶的稳定性。这在船舶装载货物时尤为重要，因为不均匀的重量分布可能导致倾覆或过度倾斜。因此，在设计阶段计算“甲板浮力”至关重要，以确保船舶能够处理各种装载情况。除了重量分布外，构建甲板所用的材料也在其浮力中起着重要作用。轻质但坚固的材料可以增强船只的“甲板浮力”，使其在不危及稳定性的情况下承载更多货物。现代船舶通常使用先进的复合材料来实现强度与重量之间的平衡，这对于保持最佳的海上性能至关重要。此外，波浪、风和水流等环境因素也会影响船舶的“甲板浮力”。例如，高波浪可能导致水溢出甲板，从而可能导致淹水和浮力损失。水手必须接受培训，以识别这些条件并采取适当措施以保持甲板的完整性和整个船舶的稳定性。这包括固定货物、调整压载，甚至有时改变船舶航向，以安全地通过恶劣水域。“甲板浮力”的重要性不仅限于船舶的物理结构。它还涉及安全法规和海事法。船舶必须满足特定的浮力标准才能被视为适航。监管机构会进行严格检查，以确保船舶符合这些标准，因为未能做到这一点可能会导致严重后果，包括罚款或禁止航行。总之，“甲板浮力”是船舶设计和操作的基本方面。它涵盖了从重量分布和所用材料到环境影响和法规合规等各种因素。对于任何参与海事行业的人来说，全面理解“甲板浮力”都是至关重要的，无论他们是在设计船舶、操作船舶，还是确保船舶符合安全标准。随着行业继续随着新技术和材料的发展而演变，“甲板浮力”的原则将始终是有效和安全的海洋操作的基石。