change of displacement per inch trim

简明释义

每英寸纵倾排水量变化

英英释义

例句

1.During the simulation, we observed a change of displacement per inch trim when the weight distribution was altered.

在模拟过程中，当改变重量分布时，我们观察到了每英寸修整位移变化。

2.The report indicated a minor change of displacement per inch trim due to environmental factors.

报告指出由于环境因素导致了轻微的每英寸修整位移变化。

3.Adjusting the hull design can lead to a change of displacement per inch trim that improves stability.

调整船体设计可以导致每英寸修整位移变化，从而提高稳定性。

4.The engineer noted a significant change of displacement per inch trim in the vessel's performance during testing.

工程师注意到在测试过程中船只性能的每英寸修整位移变化显著。

5.The captain was concerned about the change of displacement per inch trim after loading additional cargo.

船长对装载额外货物后出现的每英寸修整位移变化感到担忧。

作文

In the world of engineering and design, particularly in fields such as naval architecture and mechanical engineering, understanding the concept of change of displacement per inch trim is crucial. This phrase refers to the variation in the weight distribution of a vessel or object as it is adjusted or trimmed. The term 'displacement' relates to the weight of water displaced by a floating body, which is directly linked to its buoyancy and stability. When we talk about 'trim,' we are referring to the balance of a vessel in the water, specifically how it sits or tilts forward or backward depending on the load it carries. The change of displacement per inch trim essentially quantifies how much the displacement changes for every inch of trim adjustment. This is important for engineers and designers who need to ensure that a vessel remains stable and performs optimally under various loading conditions. For instance, if a ship is loaded unevenly, it may list to one side or the other, which can lead to dangerous situations at sea. By understanding the change of displacement per inch trim, engineers can make necessary adjustments to the load or design to maintain stability.Moreover, this concept is not only applicable to ships but also to various other structures and vehicles. For example, in automotive engineering, the weight distribution of a car can affect its handling and performance. A car that is too front-heavy may experience understeer, while one that is rear-heavy may oversteer. By analyzing the change of displacement per inch trim, engineers can optimize the design of a vehicle to enhance performance and safety.In practical applications, measuring the change of displacement per inch trim involves detailed calculations and simulations. Engineers often use computer-aided design (CAD) software to model how various loads will affect the trim of a vessel or vehicle. They can simulate different scenarios to see how adjustments will impact stability and performance. This allows for informed decision-making when it comes to design modifications or operational procedures.Furthermore, understanding the change of displacement per inch trim can also play a significant role in regulatory compliance. Many maritime and automotive regulations require that vessels and vehicles meet specific stability criteria. By ensuring that designs adhere to these standards, manufacturers can avoid potential legal issues and ensure the safety of their products.In conclusion, the concept of change of displacement per inch trim is vital in engineering disciplines that deal with weight distribution and stability. It helps engineers design safer and more efficient vessels and vehicles by providing insight into how changes in trim affect overall performance. As technology continues to advance, the methods for calculating and simulating these changes will only improve, leading to even greater innovations in the field. Understanding this phrase is essential for anyone looking to excel in engineering and design, as it encapsulates a fundamental principle of stability and performance in various applications.

在工程和设计的世界中，特别是在海洋建筑和机械工程等领域，理解“每英寸修整位移变化”的概念至关重要。这个短语指的是当一个船只或物体进行调整或修整时，其重量分布的变化。“位移”一词与浮动物体所排开的水的重量有关，这直接与其浮力和稳定性相关。当我们谈论“修整”时，我们指的是船只在水中的平衡，具体来说是它因承载的负荷而向前或向后倾斜的方式。“每英寸修整位移变化”本质上量化了在每英寸修整调整时位移的变化。这对于需要确保船只在各种装载条件下保持稳定并表现最佳的工程师和设计师来说非常重要。例如，如果一艘船的装载不均匀，它可能会向一侧倾斜，这可能导致海上的危险情况。通过理解“每英寸修整位移变化”，工程师可以对负荷或设计进行必要的调整，以保持稳定性。此外，这个概念不仅适用于船舶，也适用于各种其他结构和车辆。例如，在汽车工程中，汽车的重量分布会影响其操控性和性能。一辆过于前重的车可能会经历转向不足，而一辆后重的车则可能会出现转向过度。通过分析“每英寸修整位移变化”，工程师可以优化车辆的设计，以增强性能和安全性。在实际应用中，测量“每英寸修整位移变化”涉及详细的计算和模拟。工程师通常使用计算机辅助设计（CAD）软件来建模不同负载如何影响船只或车辆的修整。他们可以模拟不同的场景，以观察调整将如何影响稳定性和性能。这使得在设计修改或操作程序时能够做出明智的决策。此外，理解“每英寸修整位移变化”也在合规性方面发挥了重要作用。许多海事和汽车法规要求船只和车辆满足特定的稳定性标准。通过确保设计符合这些标准，制造商可以避免潜在的法律问题，并确保其产品的安全性。总之，“每英寸修整位移变化”的概念在处理重量分布和稳定性的工程学科中至关重要。它通过提供修整变化如何影响整体性能的洞察，帮助工程师设计更安全、更高效的船只和车辆。随着技术的不断进步，计算和模拟这些变化的方法只会得到改善，从而在该领域带来更大的创新。理解这个短语对于任何希望在工程和设计领域取得成功的人来说都是必不可少的，因为它概括了各种应用中稳定性和性能的基本原则。