keel-block load
简明释义
龙骨墩载荷
英英释义
例句
1.A miscalculation of the keel-block load can lead to structural damage.
对龙骨支撑负载的错误计算可能导致结构损坏。
2.The engineers monitored the keel-block load throughout the repair process.
工程师在整个修理过程中监测龙骨支撑负载。
3.Before launching, we need to check the keel-block load to avoid any mishaps.
在下水之前,我们需要检查龙骨支撑负载以避免任何意外。
4.Adjusting the keel-block load is crucial for maintaining the vessel's balance in dry dock.
调整龙骨支撑负载对于保持船只在干船坞中的平衡至关重要。
5.The ship was carefully positioned on the keel-block load to ensure stability during construction.
船只被小心地放置在龙骨支撑负载上,以确保在建造过程中的稳定性。
作文
In the field of naval architecture and shipbuilding, understanding the concept of keel-block load is essential for ensuring the structural integrity and stability of a vessel. The term keel-block load refers to the weight that is supported by the keel blocks, which are the wooden or metal supports used during the construction and launching of a ship. These blocks are crucial as they bear the weight of the ship's hull until it is launched into the water. The proper calculation of keel-block load is vital for several reasons, including safety, performance, and durability of the vessel.When a ship is being built, it is placed on a dry dock, where the keel blocks are strategically positioned to support its weight. The distribution of the keel-block load must be carefully planned to prevent any undue stress on the hull, which could lead to structural failures. Engineers and naval architects calculate the weight of the materials used in the construction of the ship, including steel, machinery, and equipment, to determine the total keel-block load. This calculation ensures that the keel blocks can adequately support the ship during construction and while it remains on the dry dock.Moreover, the keel-block load plays a significant role in the stability of the ship once it is launched. As the vessel transitions from the dry dock to the water, the weight distribution changes, and the keel blocks are removed. If the keel-block load was not correctly calculated, the ship might experience instability, leading to capsizing or other dangerous situations. Therefore, a thorough understanding of this concept is imperative for shipbuilders and designers.Another important aspect of keel-block load is its impact on the overall design of the ship. The weight that the keel blocks must support can influence the choice of materials and construction methods. For instance, if a ship has a particularly heavy keel-block load, builders may opt for stronger materials or additional reinforcements to ensure that the hull can withstand the pressures exerted on it. This consideration extends beyond the construction phase, as the long-term performance of the vessel will also be affected by how well the initial keel-block load was managed.In conclusion, the concept of keel-block load is a fundamental principle in shipbuilding that directly affects the safety, stability, and performance of a vessel. A deep understanding of this term allows engineers and architects to design ships that can endure the challenges of the sea. By ensuring that the keel-block load is accurately calculated and managed, shipbuilders can create vessels that are not only functional but also safe for navigation. Thus, mastering the intricacies of keel-block load is crucial for anyone involved in the maritime industry, from students studying naval architecture to seasoned professionals in shipbuilding.
在海洋建筑和造船领域,理解龙骨块载荷的概念对于确保船只的结构完整性和稳定性至关重要。术语龙骨块载荷指的是由龙骨块承受的重量,这些龙骨块是用于建造和下水船只的木质或金属支撑物。这些支撑物至关重要,因为它们在船体下水之前承载着船只的重量。正确计算龙骨块载荷对于多个原因至关重要,包括安全性、性能和船只的耐久性。当一艘船正在建造时,它被放置在干船坞中,龙骨块被战略性地放置以支撑其重量。龙骨块载荷的分布必须经过仔细规划,以防止对船体施加过大的压力,这可能导致结构故障。工程师和海洋建筑师计算船只建造中使用的材料的重量,包括钢材、机械和设备,以确定总的龙骨块载荷。这一计算确保龙骨块能够在建造期间以及船只停留在干船坞时充分支撑船只。此外,龙骨块载荷在船只下水后的稳定性中也起着重要作用。当船只从干船坞转移到水中时,重量分布发生变化,龙骨块被移除。如果龙骨块载荷没有正确计算,船只可能会出现不稳定,从而导致倾覆或其他危险情况。因此,深入理解这一概念对于造船商和设计师至关重要。龙骨块载荷的另一个重要方面是它对船只整体设计的影响。龙骨块必须支撑的重量可能会影响材料选择和施工方法。例如,如果一艘船的龙骨块载荷特别重,建造者可能会选择更强的材料或额外的加固措施,以确保船体能够承受施加在其上的压力。这种考虑不仅限于建造阶段,因为船只的长期性能也将受到最初龙骨块载荷管理效果的影响。总之,龙骨块载荷的概念是造船中的一个基本原则,直接影响船只的安全性、稳定性和性能。深入理解这一术语使工程师和建筑师能够设计出能够承受海洋挑战的船只。通过确保准确计算和管理龙骨块载荷,造船商可以创造出不仅功能齐全而且安全的航行船只。因此,掌握龙骨块载荷的复杂性对于任何参与海事行业的人来说都是至关重要的,从学习海洋建筑的学生到造船行业的资深专业人士。
