inboard turning

简明释义

内向旋转(从尾向首看

英英释义

例句

1.The yacht was able to make quick inboard turning adjustments in tight spaces.

这艘游艇能够在狭小空间内快速进行内转弯调整。

2.The instructor emphasized the importance of inboard turning when navigating narrow channels.

教练强调了在狭窄水道中进行内转弯的重要性。

3.The ship's maneuverability improved significantly with the new inboard turning system.

这艘船的机动性因新型内转弯系统显著提升。

4.We learned that inboard turning is crucial for docking in crowded marinas.

我们了解到，内转弯对在拥挤的码头上靠岸至关重要。

5.During the training exercise, the captain demonstrated effective inboard turning techniques.

在训练演习中，船长展示了有效的内转弯技巧。

作文

In the world of engineering and design, particularly in the fields of automotive and aerospace, the term inboard turning refers to the maneuver or action of rotating components or systems towards the centerline of a vehicle or aircraft. This concept is crucial for enhancing performance, stability, and safety during operations. Understanding inboard turning can significantly impact how engineers approach the design of steering mechanisms, landing gear, and even the layout of engines within a vehicle.To illustrate this, let us consider the design of a car. When a vehicle turns, the wheels rotate around a central point. If the wheels were to turn outward excessively, it could lead to instability, loss of control, and increased tire wear. The principle of inboard turning helps mitigate these issues by ensuring that the wheels maintain a trajectory that is more aligned with the vehicle's center of gravity. This alignment not only improves handling but also enhances the vehicle's overall efficiency.In the realm of aviation, inboard turning plays an equally vital role. Aircraft are designed with specific turning radii in mind, and the ability to execute an inboard turning maneuver allows pilots to navigate tighter spaces while maintaining control. For instance, during takeoff or landing, the angle at which the wings and control surfaces operate can determine the aircraft's responsiveness to pilot inputs. A well-designed inboard turning mechanism ensures that the aircraft can perform these maneuvers safely and effectively.Moreover, the concept of inboard turning extends beyond just physical mechanics; it also encompasses the strategic planning of vehicle operation. For example, when navigating through urban environments, drivers must often make quick decisions about their turning radius. Utilizing inboard turning principles can help drivers make safer, more efficient turns, reducing the likelihood of accidents and improving traffic flow.In addition to safety and efficiency, inboard turning is also relevant in the context of robotics and automation. Robots designed for tasks that require precise movements, such as assembly lines or surgical procedures, benefit from the principles of inboard turning. By incorporating these concepts into their design, engineers can create robots that perform complex tasks with greater precision and less risk of error.In conclusion, the understanding of inboard turning is essential for professionals in various fields, including automotive engineering, aviation, robotics, and urban planning. This concept not only enhances the performance and safety of vehicles and machines but also contributes to more efficient operational strategies in everyday scenarios. As technology continues to evolve, the principles of inboard turning will remain a fundamental aspect of design and functionality, ensuring that we can navigate our world with greater ease and safety.

在工程和设计的世界中，特别是在汽车和航空航天领域，术语inboard turning指的是将组件或系统旋转到车辆或飞机中心线的动作或机动。这一概念对于在操作过程中提高性能、稳定性和安全性至关重要。理解inboard turning可以显著影响工程师在设计转向机制、起落架甚至车辆发动机布局时的思路。为了说明这一点，让我们考虑一下汽车的设计。当一辆车转弯时，轮子围绕一个中心点旋转。如果轮子过度向外转动，就可能导致不稳定、失去控制和轮胎磨损增加。inboard turning的原理有助于通过确保轮子保持与车辆重心更一致的轨迹来缓解这些问题。这种对齐不仅改善了操控性，还增强了车辆的整体效率。在航空领域，inboard turning同样发挥着至关重要的作用。飞机的设计考虑了特定的转弯半径，而执行inboard turning机动的能力使飞行员能够在保持控制的同时导航更紧凑的空间。例如，在起飞或着陆过程中，机翼和控制表面工作的角度可以决定飞机对飞行员输入的响应能力。设计良好的inboard turning机制确保飞机能够安全有效地执行这些机动。此外，inboard turning的概念不仅限于物理机械，它还涵盖了车辆操作的战略规划。例如，在城市环境中导航时，驾驶员往往需要快速做出关于转弯半径的决策。利用inboard turning原理可以帮助驾驶员进行更安全、更高效的转弯，减少事故发生的可能性，提高交通流量。除了安全性和效率外，inboard turning在机器人和自动化的背景下也很相关。为需要精确运动的任务（如装配线或外科手术）设计的机器人受益于inboard turning的原理。通过将这些概念融入设计中，工程师可以制造出能够以更高精度和更小错误风险执行复杂任务的机器人。总之，理解inboard turning对各个领域的专业人士至关重要，包括汽车工程、航空、机器人技术和城市规划。这个概念不仅提高了车辆和机器的性能和安全性，而且还促进了日常场景中更高效的操作策略。随着技术的不断发展，inboard turning的原理将继续成为设计和功能的基本方面，确保我们能够更轻松、安全地导航我们的世界。