gradient of keelblocks

简明释义

龙骨墩坡度

英英释义

例句

1.The gradient of keelblocks determines how water flows around the hull.

龙骨块的梯度决定了水如何流动在船体周围。

2.Adjusting the gradient of keelblocks can significantly affect the stability of the vessel.

调整龙骨块的梯度会显著影响船只的稳定性。

3.The engineer calculated the gradient of keelblocks to ensure proper alignment during the shipbuilding process.

工程师计算了龙骨块的梯度以确保在造船过程中的正确对齐。

4.A steep gradient of keelblocks may lead to increased drag in water.

陡峭的龙骨块的梯度可能导致水中的阻力增加。

5.Before launching, we need to verify the gradient of keelblocks for optimal performance.

在下水之前，我们需要验证龙骨块的梯度以确保最佳性能。

作文

In the field of naval architecture and marine engineering, understanding the structural components of a ship is crucial for ensuring safety and performance. One of these essential components is the keel, which serves as the backbone of the vessel. The keelblocks are the supports upon which a ship rests during construction and repairs. An important aspect of this support system is the gradient of keelblocks, which refers to the slope or angle of the keelblocks in relation to the horizontal plane. This gradient plays a significant role in maintaining the stability and alignment of the ship during the building process.The gradient of keelblocks is vital for several reasons. Firstly, it helps distribute the weight of the ship evenly across the keelblocks, preventing undue stress on any single block. If the gradient is incorrect, it could lead to uneven weight distribution, potentially causing structural damage to the hull or compromising the integrity of the ship during its construction phase. Furthermore, an appropriate gradient of keelblocks ensures that the ship remains level, which is essential for accurate measurements and alignments during assembly.Moreover, the gradient of keelblocks affects how the ship will sit in the water once it is launched. A well-calibrated gradient allows for proper buoyancy and stability when the vessel is afloat. If the keelblocks are not set at the correct gradient, the ship may list to one side, affecting its performance and safety at sea. Therefore, naval architects must carefully calculate and adjust the gradient of keelblocks during the design and construction phases.In addition to structural integrity, the gradient of keelblocks also impacts the efficiency of the construction process. When the gradient is optimal, it can facilitate easier access to various parts of the ship for workers, allowing for a smoother workflow. This efficiency can lead to reduced labor costs and faster project completion times, which are critical factors in the competitive maritime industry.In conclusion, the gradient of keelblocks is a fundamental concept in shipbuilding that directly influences the safety, stability, and efficiency of a vessel. Understanding this concept is crucial for professionals in naval architecture and marine engineering, as it encompasses both the technical aspects of ship construction and the practical implications for the ship's performance. As the maritime industry continues to evolve, the importance of precise calculations regarding the gradient of keelblocks will remain paramount in ensuring the success of future vessels.

在船舶建筑和海洋工程领域，理解船舶的结构组件对于确保安全和性能至关重要。其中一个关键组件是龙骨，它作为船只的脊梁。龙骨块是船只在建造和维修期间所依靠的支撑物。这个支撑系统的一个重要方面是龙骨块的梯度，它指的是龙骨块与水平面之间的坡度或角度。这个梯度在建造过程中保持船只的稳定性和对齐性方面发挥着重要作用。龙骨块的梯度对多个原因至关重要。首先，它有助于将船只的重量均匀分布在龙骨块上，防止对任何单一块施加过大的压力。如果梯度不正确，可能会导致重量分布不均，从而可能对船体造成结构损害或在建造阶段妨碍船只的完整性。此外，适当的龙骨块的梯度确保船只保持水平，这对于在组装过程中进行准确测量和对齐至关重要。此外，龙骨块的梯度还影响船只一旦下水后如何在水中坐落。经过良好校准的梯度允许在船只浮起时获得适当的浮力和稳定性。如果龙骨块没有设定在正确的梯度，船只可能会向一侧倾斜，影响其性能和在海上的安全。因此，船舶设计师必须在设计和建造阶段仔细计算和调整龙骨块的梯度。除了结构完整性，龙骨块的梯度还影响建造过程的效率。当梯度最佳时，可以更方便工人进入船只的各个部分，从而促进更顺畅的工作流程。这种效率可以降低劳动力成本并加快项目完成时间，而这些都是在竞争激烈的海事行业中至关重要的因素。总之，龙骨块的梯度是船舶建造中的一个基本概念，直接影响船舶的安全性、稳定性和效率。理解这个概念对于船舶建筑和海洋工程领域的专业人士至关重要，因为它涵盖了船舶建造的技术方面和船舶性能的实际影响。随着海事行业的不断发展，关于龙骨块的梯度的精确计算的重要性将继续在确保未来船舶的成功中占据重要地位。