clearance in the fore and aft directions

简明释义

前后向的总间隙

英英释义

例句

1.Proper clearance in the fore and aft directions is crucial for the stability of the aircraft during takeoff.

在起飞过程中，适当的前后方向的间隙对飞机的稳定性至关重要。

2.The mechanic adjusted the engine positioning for better clearance in the fore and aft directions.

机械师调整了发动机的位置，以获得更好的前后方向的间隙。

3.During the inspection, we measured the clearance in the fore and aft directions to ensure safety standards were met.

在检查过程中，我们测量了前后方向的间隙以确保符合安全标准。

4.The construction team ensured that there was sufficient clearance in the fore and aft directions for the new loading dock.

施工团队确保新的装卸码头有足够的前后方向的间隙。

5.The ship's design must ensure adequate clearance in the fore and aft directions to prevent collisions with other vessels.

船只的设计必须确保有足够的前后方向的间隙以防止与其他船只相撞。

作文

In the realm of engineering and design, particularly in the fields of marine and automotive industries, understanding the concept of clearance in the fore and aft directions is crucial for ensuring safety and functionality. This term refers to the space or distance available in the forward (fore) and backward (aft) directions of a vehicle or vessel. Adequate clearance in these directions is essential for optimal performance, maneuverability, and safety during operation.When designing a ship, for instance, engineers must consider the clearance in the fore and aft directions to ensure that the vessel can navigate through various water conditions without risk of grounding or collision. Insufficient clearance can lead to significant issues, such as damage to the hull or even capsizing in rough seas. Similarly, in the automotive industry, vehicles must have appropriate clearance to avoid obstacles on the road and to facilitate smooth driving dynamics.Moreover, this concept is not limited to just vehicles and vessels; it also applies to infrastructure. For example, when constructing bridges or tunnels, engineers must account for the clearance in the fore and aft directions to ensure that vehicles can pass safely underneath without any risk of collision. This consideration is especially important for larger vehicles, such as trucks and buses, which require more space than standard cars.The implications of inadequate clearance extend beyond physical damage; they can also impact operational efficiency. In both marine and automotive contexts, insufficient clearance can lead to increased wear and tear on components, resulting in higher maintenance costs and reduced lifespan of the vehicle or vessel. Thus, proper planning and design must prioritize sufficient clearance in the fore and aft directions to enhance durability and reliability.Additionally, the concept of clearance is vital for regulatory compliance. Many industries are governed by strict safety standards that dictate the required clearance dimensions for different types of vehicles and vessels. Failure to adhere to these regulations can result in legal ramifications and financial penalties, further emphasizing the importance of understanding and applying the principle of clearance in the fore and aft directions.In conclusion, the significance of clearance in the fore and aft directions cannot be overstated in the fields of engineering and design. It plays a critical role in ensuring safety, enhancing operational efficiency, and maintaining compliance with regulations. As technology continues to advance, the methods for calculating and optimizing clearance will likely evolve, but the fundamental need for adequate space in the fore and aft directions will remain a constant consideration in the design and operation of vehicles and vessels. Engineers and designers must remain vigilant in their assessments and implementations of clearance to ensure that safety and performance are never compromised.

在工程和设计领域，特别是在海洋和汽车工业中，理解“前后方向的间隙”这一概念对于确保安全和功能至关重要。这个术语指的是车辆或船只在前方（前）和后方（后）方向上可用的空间或距离。在这些方向上有足够的间隙对于最佳性能、机动性和操作安全至关重要。例如，在设计一艘船时，工程师必须考虑“前后方向的间隙”，以确保船只能够在各种水域条件下航行，而不会面临搁浅或碰撞的风险。不足的间隙可能导致重大问题，例如船体损坏或甚至在恶劣海况下倾覆。同样，在汽车行业，车辆必须具有适当的间隙，以避免道路上的障碍物，并促进平稳的驾驶动态。此外，这个概念不仅限于车辆和船只；它也适用于基础设施。例如，在建造桥梁或隧道时，工程师必须考虑“前后方向的间隙”，以确保车辆可以安全地通过而不面临碰撞的风险。这种考虑在大型车辆（如卡车和公交车）中尤为重要，因为它们比标准轿车需要更多的空间。不足的间隙的影响不仅限于物理损害；还会影响操作效率。在海洋和汽车两种环境中，不足的间隙可能导致部件的磨损加剧，从而增加维护成本并减少车辆或船只的使用寿命。因此，适当的规划和设计必须优先考虑足够的“前后方向的间隙”，以增强耐用性和可靠性。此外，间隙的概念对于遵守法规至关重要。许多行业受到严格的安全标准的监管，这些标准规定了不同类型的车辆和船只所需的间隙尺寸。未能遵守这些规定可能导致法律后果和经济处罚，进一步强调了理解和应用“前后方向的间隙”原则的重要性。总之，“前后方向的间隙”的重要性在工程和设计领域中不可低估。它在确保安全、提高操作效率和维持合规性方面发挥着关键作用。随着技术的不断进步，计算和优化间隙的方法可能会发展，但在车辆和船只的设计和操作中，前后方向的间隙这一基本需求将始终是一个重要考量。工程师和设计师必须在评估和实施间隙时保持警惕，以确保安全和性能永远不会受到妥协。