hydraulic power

简明释义

水力

英英释义

例句

1.Farm tractors often rely on hydraulic power to lift and lower attachments like plows and seeders.

农用拖拉机通常依靠液压动力来升降犁和播种机等附件。

2.In automotive engineering, hydraulic power is crucial for the functioning of brakes and steering systems.

在汽车工程中，液压动力对刹车和转向系统的运作至关重要。

3.The construction site used hydraulic power to operate heavy machinery, allowing for efficient excavation.

建筑工地使用液压动力来操作重型机械，从而实现高效挖掘。

4.The airplane uses hydraulic power to control its landing gear and flaps during takeoff and landing.

飞机在起飞和着陆时使用液压动力来控制其起落架和襟翼。

5.Many elevators operate using hydraulic power, which allows for smooth and reliable vertical movement.

许多电梯使用液压动力，这使得垂直移动平稳可靠。

作文

Hydraulic power is a fascinating and essential concept that plays a crucial role in various industries and everyday applications. At its core, hydraulic power (液压动力) refers to the use of pressurized fluids to generate mechanical energy. This principle is based on Pascal's law, which states that when pressure is applied to a confined fluid, it transmits that pressure equally in all directions. This unique property allows hydraulic systems to perform tasks that would otherwise require much more effort or complex machinery.One of the most common applications of hydraulic power (液压动力) can be observed in construction equipment. For instance, bulldozers, excavators, and cranes rely heavily on hydraulic systems to lift heavy loads and perform precise movements. The use of pressurized oil in these machines enables them to exert tremendous force while maintaining control and stability. Without hydraulic power (液压动力), many of these machines would be unable to operate efficiently, leading to increased labor costs and time delays in construction projects.In addition to construction, hydraulic power (液压动力) is also prevalent in the automotive industry. Many vehicles utilize hydraulic brakes, which provide superior stopping power compared to traditional mechanical brakes. When the driver presses the brake pedal, hydraulic fluid is pushed through the brake lines, activating the brake pads and slowing down the vehicle. This system not only enhances safety but also improves the overall driving experience.Another remarkable application of hydraulic power (液压动力) is found in the field of aerospace. Aircraft utilize hydraulic systems for various functions, including controlling wing flaps, landing gear, and brakes. The ability to operate these systems with precision and reliability is critical for safe flight operations. As aircraft become more advanced, the demand for efficient hydraulic power (液压动力) systems continues to grow, driving innovation in the field.Furthermore, hydraulic power (液压动力) is not limited to large machinery; it is also used in everyday household items. For example, many modern washing machines employ hydraulic mechanisms to optimize water usage and improve cleaning efficiency. By utilizing pressurized water, these machines can effectively remove dirt and stains from clothing while conserving resources.The environmental impact of hydraulic power (液压动力) systems should also be considered. While hydraulic systems are incredibly efficient, they can pose risks if not properly maintained. Leaks in hydraulic lines can lead to fluid spills, which may harm the environment. Therefore, regular inspections and maintenance are essential to ensure that hydraulic systems operate safely and sustainably.In conclusion, hydraulic power (液压动力) is a vital component of modern technology, influencing various sectors from construction to aerospace and even household appliances. Its ability to harness the power of pressurized fluids allows for efficient and effective operation of numerous systems. As technology continues to advance, the importance of hydraulic power (液压动力) will undoubtedly grow, making it an area worth exploring for future innovations and applications.

液压动力是一个迷人且至关重要的概念，在各个行业和日常应用中发挥着重要作用。从本质上讲，液压动力（hydraulic power）指的是利用加压流体产生机械能的过程。这个原理基于帕斯卡定律，该定律指出，当压力施加到一个封闭流体时，它会在各个方向均匀传递这种压力。这一独特的性质使得液压系统能够执行那些否则需要更大努力或复杂机械才能完成的任务。液压动力（hydraulic power）的一个常见应用可以在建筑设备中观察到。例如，推土机、挖掘机和起重机严重依赖液压系统来提升重物并进行精确移动。这些机器中使用加压油使它们能够施加巨大的力量，同时保持控制和稳定。如果没有液压动力（hydraulic power），许多这些机器将无法高效运作，从而导致施工项目的劳动力成本增加和时间延误。除了建筑业，液压动力（hydraulic power）在汽车工业中也很普遍。许多车辆使用液压刹车，与传统机械刹车相比，提供了更强的制动能力。当驾驶员踩下刹车踏板时，液压油被推送通过刹车管道，激活刹车片并减速。这一系统不仅增强了安全性，还改善了整体驾驶体验。液压动力（hydraulic power）另一个显著的应用可以在航空领域找到。飞机利用液压系统进行各种功能，包括控制机翼襟翼、起落架和刹车。以精确和可靠的方式操作这些系统对于安全飞行至关重要。随着飞机的不断进步，对高效液压动力（hydraulic power）系统的需求持续增长，推动了该领域的创新。此外，液压动力（hydraulic power）并不限于大型机械；它也用于日常家用物品。例如，许多现代洗衣机采用液压机制来优化水的使用并提高清洁效率。通过利用加压水，这些机器能够有效去除衣物上的污垢和污渍，同时节约资源。液压动力（hydraulic power）系统的环境影响也应考虑。尽管液压系统非常高效，但如果维护不当，可能会带来风险。液压管线的泄漏可能导致液体泄漏，这可能对环境造成伤害。因此，定期检查和维护对于确保液压系统安全和可持续地运行至关重要。总之，液压动力（hydraulic power）是现代技术的重要组成部分，影响着从建筑到航空，甚至家庭电器等多个领域。它利用加压流体的力量，使众多系统能够高效和有效地运作。随着技术的不断进步，液压动力（hydraulic power）的重要性无疑将不断增长，这使其成为未来创新和应用值得探索的领域。