hinged landing prow

简明释义

铰接登岸首门

英英释义

例句

1.For the new model, the designers incorporated a hinged landing prow to enhance stability during landings.

对于新型号，设计师加入了可铰接的着陆船首以增强着陆时的稳定性。

2.The boat's design features a unique hinged landing prow that allows for smooth beach landings.

这艘船的设计具有独特的可铰接的着陆船首，可以实现平稳的沙滩着陆。

3.The hinged landing prow can be adjusted depending on the type of terrain being approached.

根据接近的地形类型，可铰接的着陆船首可以进行调整。

4.During the demonstration, the engineer explained how the hinged landing prow improves the vessel's maneuverability.

在演示过程中，工程师解释了可铰接的着陆船首如何提高船只的机动性。

5.The hinged landing prow on the rescue boat allows it to navigate shallow waters effectively.

救生艇上的可铰接的着陆船首使其能够有效地穿越浅水区。

作文

The concept of a hinged landing prow is often associated with various types of vessels and aircraft that require a specialized mechanism for landing. In essence, a hinged landing prow refers to a structure at the front of a vehicle that can pivot or rotate to facilitate a smoother landing. This innovation is particularly significant in maritime and aeronautical engineering, where the dynamics of landing can be quite complex. The hinged landing prow serves as an extension of the vehicle's design, allowing for greater control and stability during the landing phase.For example, consider a seaplane that must land on water. The design of its hinged landing prow allows it to adjust its angle relative to the water surface, thereby minimizing the impact force when it touches down. This feature is crucial because it helps prevent damage to the aircraft and ensures the safety of its passengers. Similarly, in naval vessels, a hinged landing prow can assist in beach landings, where the vessel needs to navigate shallow waters and sandy beaches. By adjusting the angle of the prow, the vessel can better align itself with the terrain, making the landing process more efficient.Moreover, the hinged landing prow is not limited to just aircraft and ships; it can also be applied to other vehicles, such as all-terrain vehicles (ATVs) and amphibious vehicles. In these cases, the hinged landing prow enhances the vehicle's ability to traverse different environments, whether it be land, water, or a combination of both. The adaptability provided by this mechanism is a testament to the ingenuity of modern engineering.In addition to its practical applications, the hinged landing prow also represents a broader trend in design philosophy - the integration of functionality with aesthetics. Engineers and designers are increasingly aware that the appearance of a vehicle can influence public perception and marketability. Therefore, a well-designed hinged landing prow not only performs its intended function but also contributes to the overall visual appeal of the vehicle.As technology continues to advance, we can expect further innovations related to the hinged landing prow. With the rise of electric and autonomous vehicles, new designs may emerge that enhance the effectiveness of this feature. For instance, advanced sensors and control systems could allow for more precise adjustments of the hinged landing prow, improving landing performance even further.In conclusion, the hinged landing prow is a remarkable engineering feature that plays a vital role in the safe and efficient landing of various vehicles. Its ability to pivot and adapt to different landing conditions showcases the ingenuity of modern design. As we move into the future, the ongoing evolution of the hinged landing prow will likely lead to even more sophisticated applications, enhancing our transportation methods across multiple domains. Understanding this term not only enriches our vocabulary but also opens our eyes to the complexities involved in vehicle design and functionality.

‘hinged landing prow’是一个与各种类型的船只和飞机相关的概念，它们需要一种专门的着陆机制。实际上，‘hinged landing prow’指的是一种车辆前部的结构，可以旋转或转动，以便于更顺利的着陆。这一创新在海洋和航空工程中尤为重要，因为着陆的动态过程相当复杂。‘hinged landing prow’作为车辆设计的延伸，使得在着陆阶段能够更好地控制和稳定。例如，考虑一下必须在水面上着陆的水上飞机。它的‘hinged landing prow’设计使其能够调整相对于水面的位置，从而减少接触时的冲击力。这一特性至关重要，因为它有助于防止飞机受损，并确保乘客的安全。同样，在海军舰艇中，‘hinged landing prow’可以帮助进行滩头登陆，在这种情况下，舰艇需要在浅水和沙滩上航行。通过调整船首的角度，舰艇可以更好地与地形对齐，使着陆过程更加高效。此外，‘hinged landing prow’并不限于飞机和船只；它也可以应用于其他车辆，如全地形车（ATV）和两栖车辆。在这些情况下，‘hinged landing prow’增强了车辆在不同环境中穿越的能力，无论是陆地、水域还是两者的结合。这个机制所提供的适应性证明了现代工程的聪明才智。除了实际应用外，‘hinged landing prow’还代表了一种更广泛的设计理念趋势——功能与美学的整合。工程师和设计师越来越意识到，车辆的外观会影响公众的看法和市场销售。因此，一个设计良好的‘hinged landing prow’不仅能完成其预期功能，还能为车辆的整体视觉吸引力做出贡献。随着技术的不断进步，我们可以期待与‘hinged landing prow’相关的进一步创新。随着电动和自主车辆的兴起，可能会出现新的设计，增强这一特性的有效性。例如，先进的传感器和控制系统可以使‘hinged landing prow’的调整更加精确，进一步提高着陆性能。总之，‘hinged landing prow’是一个显著的工程特征，在各种车辆的安全和高效着陆中发挥着至关重要的作用。它的旋转和适应不同着陆条件的能力展示了现代设计的聪明才智。随着我们进入未来，‘hinged landing prow’的持续演变可能会导致更复杂的应用，增强我们在多个领域的交通方式。理解这个术语不仅丰富了我们的词汇，也让我们对车辆设计和功能中的复杂性有了更深刻的认识。