keel-block pressure

简明释义

龙骨墩压力

英英释义

例句

1.Adjusting the keel-block pressure is crucial for maintaining the alignment of the ship's hull.

调整龙骨支撑压力对于保持船体的对齐至关重要。

2.During the inspection, we found that the keel-block pressure was within acceptable limits.

在检查过程中，我们发现龙骨支撑压力在可接受的范围内。

3.High keel-block pressure can indicate potential issues with the dry dock's support system.

高龙骨支撑压力可能表明干船坞的支撑系统存在潜在问题。

4.The engineer measured the keel-block pressure to ensure the stability of the vessel during repairs.

工程师测量了龙骨支撑压力以确保船只在维修期间的稳定性。

5.The technician recorded the keel-block pressure at various stages of the lifting process.

技术员在升起过程中记录了不同阶段的龙骨支撑压力。

作文

In the world of shipbuilding and marine engineering, various technical terms are essential for understanding the processes involved in constructing and maintaining vessels. One such term is keel-block pressure, which refers to the force exerted on the keel blocks during the construction or repair of a ship. The keel is the backbone of a ship, running along the bottom from bow to stern, and it plays a critical role in the overall structural integrity of the vessel. Understanding keel-block pressure is crucial for engineers and shipbuilders to ensure that they apply the correct amount of force when lifting and supporting the ship during its construction phase.The concept of keel-block pressure is significant because it directly impacts the stability and alignment of the ship. When a ship is being built, it is placed on a dry dock or slipway, where the keel blocks support its weight. The pressure exerted by the ship's weight on these blocks must be carefully calculated to avoid any potential damage to the hull or the blocks themselves. If the keel-block pressure is too high, it can lead to deformation of the keel or other structural components, which may result in costly repairs and delays in the construction process.Engineers utilize various methods to measure and manage keel-block pressure. They often rely on advanced technology, such as load cells and pressure sensors, to monitor the weight distribution across the keel blocks. By doing so, they can ensure that the pressure remains within safe limits, preventing any structural failures. Additionally, understanding the materials used in the construction of both the ship and the keel blocks is vital. Different materials have varying strength properties and can withstand different levels of pressure, which must be considered when calculating keel-block pressure.Moreover, the design of the keel blocks themselves plays a crucial role in managing keel-block pressure. The shape, size, and material of the blocks must be optimized to distribute the ship's weight evenly. Engineers often conduct simulations and stress tests to determine the best configurations for keel blocks to minimize pressure points that could lead to failure. This meticulous attention to detail ensures that the ship remains stable and secure during construction and throughout its operational life.In conclusion, keel-block pressure is a fundamental concept in shipbuilding that encompasses the forces acting on the keel blocks during the construction and repair of vessels. A thorough understanding of this term is essential for engineers and shipbuilders to ensure the safety and structural integrity of the ships they create. By utilizing advanced measurement techniques and optimizing the design of keel blocks, professionals in the maritime industry can effectively manage keel-block pressure and contribute to the successful construction of seaworthy vessels. As the industry continues to evolve, the importance of understanding such technical terms will only grow, highlighting the need for ongoing education and training in marine engineering.

在船舶建造和海洋工程的世界中，各种技术术语对于理解构建和维护船只的过程至关重要。其中一个术语是龙骨块压力，它指的是在船舶的建造或修理过程中施加在龙骨块上的力量。龙骨是船的脊梁，从船头延伸到船尾，沿着底部运行，它在船舶整体结构完整性中发挥着关键作用。理解龙骨块压力对于工程师和船舶制造商来说至关重要，以确保在船舶建造阶段提升和支撑船舶时施加正确的力量。龙骨块压力的概念非常重要，因为它直接影响船舶的稳定性和对齐。当一艘船正在建造时，它被放置在干船坞或滑道上，龙骨块支撑着其重量。船舶重量施加在这些块上的压力必须经过仔细计算，以避免对船体或块本身造成任何潜在损害。如果龙骨块压力过高，可能导致龙骨或其他结构组件变形，这可能导致昂贵的维修和建造过程中的延误。工程师利用各种方法来测量和管理龙骨块压力。他们通常依赖先进的技术，如负载传感器和压力传感器，来监测龙骨块上的重量分布。通过这样做，他们可以确保压力保持在安全范围内，防止任何结构故障。此外，了解用于建造船舶和龙骨块的材料至关重要。不同的材料具有不同的强度特性，可以承受不同水平的压力，这在计算龙骨块压力时必须考虑。此外，龙骨块本身的设计在管理龙骨块压力方面也起着至关重要的作用。块的形状、大小和材料必须优化，以均匀分配船舶的重量。工程师通常进行模拟和应力测试，以确定最佳的龙骨块配置，以最小化可能导致故障的压力点。这种对细节的严格关注确保了船舶在建造期间及其运营生命周期内保持稳定和安全。总之，龙骨块压力是船舶建造中的一个基本概念，涵盖了在船舶的建造和修理过程中施加在龙骨块上的力量。深入理解这一术语对于工程师和船舶制造商确保他们所创造的船舶的安全性和结构完整性至关重要。通过利用先进的测量技术和优化龙骨块的设计，海事行业的专业人员可以有效管理龙骨块压力，为成功建造适航的船舶做出贡献。随着行业的不断发展，理解这些技术术语的重要性只会增加，突显了在海洋工程领域持续教育和培训的必要性。