hydraulic
简明释义
adj. (通过水管等)液压的,水力的;(机器)液压驱动的;与水利(或液压)系统有关的;(水泥)水下凝固的;(与)水力学(有关)的
英英释义
Relating to or operated by a fluid, typically water or oil, in motion. | 与流体(通常是水或油)运动相关或由其操作的。 |
Used in machinery that relies on the pressure of a fluid to function. | 用于依赖流体压力进行工作的机械。 |
单词用法
液压系统;水压系统;电动液压系统;水力循环系统 | |
[机]液压;水压 |
同义词
反义词
| 气动的 | 气动系统使用压缩空气来执行工作。 | ||
| 机械的 | 机械设备通常依赖于齿轮和杠杆。 |
例句
1.It sufficiently takes the characters of vibratory road rollers into account and YZ18 hydraulic vibratory road roller is designed in a creative way.
YZ18 型液压振动压路机在研制中充分考虑了振动压路机的特点,并进行了创造性的设计。
2.He uses a hydraulic hoist to unload two empty barrels.
他用一架液压起重机卸下两只空桶。
3.The folks at Altair Product Design didn’t set out to create a hydraulic hybrid.
牵牛星(Altair)产品设计的工作人员并没有开始生产一辆液压混合动力车。
4.The main materials it sells include fire hydraulic giant, fire hose, indoor and outdoor fire hydrant, firebox 1211 and 302 fire extinguisher, etc.
它卖的主要材料包括:火液压巨头、灭火水龙带、消防水带、室内外消防栓、1211消防箱、和302灭火器等等。
5.Installation of a working wheel of the hydraulic turbine.
安装水轮机工作轮。
6.He crushes it, with one hydraulic hand, almost unconsciously, like someone swatting a mosquito.
他几乎无意识地用一只液压手将它拍个稀烂,就像拍死一只蚊子一样。
7.The hydraulic lift allowed workers to access high areas safely.
这个液压升降机使工人能够安全地到达高处。
8.The hydraulic brakes on the car provide better stopping power.
汽车上的液压刹车提供了更好的制动能力。
9.A hydraulic press is essential for shaping metal parts in manufacturing.
在制造过程中,液压压力机对金属零件的成型至关重要。
10.Farmers often rely on hydraulic machinery to manage their fields.
农民们常常依赖液压机械来管理他们的田地。
11.The construction team used a hydraulic system to lift heavy materials efficiently.
施工队使用了一个液压系统来高效地提升重物。
作文
In our modern world, the use of technology has become an integral part of our daily lives. One of the most fascinating and essential technologies is the use of hydraulic systems. These systems utilize the principles of fluid mechanics to transmit power and control movements in various applications. From construction machinery to automotive systems, hydraulic technology plays a pivotal role in enhancing efficiency and performance.The term hydraulic refers to anything that operates using liquid, typically water or oil, to create force and motion. The basic principle behind hydraulic systems is Pascal's law, which states that when pressure is applied to a confined fluid, it is transmitted equally in all directions. This principle allows hydraulic systems to multiply force, making them incredibly powerful tools for various industries.One of the most common applications of hydraulic technology is in construction equipment. For instance, excavators and bulldozers utilize hydraulic cylinders to lift heavy loads and perform tasks that would be impossible with manual labor alone. The hydraulic system enables these machines to exert tremendous force while maintaining precision, allowing operators to work efficiently and safely.In addition to construction, hydraulic systems are widely used in the automotive industry. Many vehicles rely on hydraulic brakes to ensure safe stopping. When the driver presses the brake pedal, it activates a hydraulic mechanism that applies force to the brake pads, slowing down the vehicle. This system provides a reliable and effective means of controlling speed and ensuring the safety of passengers.Moreover, hydraulic technology is crucial in manufacturing processes. Machines such as presses and stamping equipment often employ hydraulic power to shape materials with precision. The ability to apply consistent and controllable force allows manufacturers to produce high-quality products with minimal waste.The benefits of hydraulic systems extend beyond their power and efficiency. They are also known for their reliability and ease of maintenance. Unlike mechanical systems that may require frequent adjustments and repairs, hydraulic systems are generally more durable and can operate under harsh conditions without significant wear and tear.However, it is essential to recognize that hydraulic systems also come with challenges. For instance, leaks in hydraulic lines can lead to loss of pressure and efficiency, causing potential safety hazards. Therefore, regular maintenance and inspection are crucial to ensure the longevity and reliability of hydraulic systems.In conclusion, the significance of hydraulic technology in our daily lives cannot be overstated. From construction to automotive applications, hydraulic systems provide the power and precision necessary to accomplish tasks efficiently and safely. As we continue to innovate and develop new technologies, the role of hydraulic systems will undoubtedly remain vital in shaping the future of various industries. Understanding the principles and applications of hydraulic technology is essential for anyone interested in engineering, mechanics, or any field that relies on the power of fluids to drive progress.
在我们现代社会,技术的使用已成为我们日常生活中不可或缺的一部分。最令人着迷和重要的技术之一就是使用液压系统。这些系统利用流体力学的原理来传递动力和控制各种应用中的运动。从建筑机械到汽车系统,液压技术在提高效率和性能方面发挥着关键作用。术语液压指的是任何使用液体(通常是水或油)来产生力量和运动的东西。液压系统背后的基本原理是帕斯卡定律,该定律指出,当压力施加于一个封闭的流体时,它会在所有方向上均匀传递。这个原理使得液压系统能够倍增力量,使其成为各个行业中极为强大的工具。液压技术最常见的应用之一是在建筑设备中。例如,挖掘机和推土机利用液压缸来提升重物并执行手工劳动无法完成的任务。液压系统使这些机器能够施加巨大的力量,同时保持精确性,允许操作员高效安全地工作。除了建筑之外,液压系统在汽车工业中也被广泛使用。许多车辆依赖于液压刹车来确保安全停车。当驾驶员踩下刹车踏板时,它会激活一个液压机制,将力量施加到刹车片上,从而减慢车辆的速度。该系统提供了一种可靠且有效的控制速度的方法,确保乘客的安全。此外,液压技术在制造过程中至关重要。诸如压机和冲压设备等机器通常采用液压动力以精确地成型材料。施加一致且可控的力量的能力使制造商能够以最小的浪费生产高质量的产品。液压系统的好处不仅限于它们的动力和效率。它们还以可靠性和易于维护而闻名。与可能需要频繁调整和修理的机械系统不同,液压系统通常更耐用,并且可以在恶劣条件下运行而不会显著磨损。然而,必须认识到液压系统也面临挑战。例如,液压管道中的泄漏可能导致压力和效率的损失,从而造成潜在的安全隐患。因此,定期维护和检查对于确保液压系统的长期运行和可靠性至关重要。总之,液压技术在我们日常生活中的重要性不容小觑。从建筑到汽车应用,液压系统提供了完成任务所需的力量和精确度,使其高效且安全地运作。随着我们不断创新和开发新技术,液压系统的角色无疑将在塑造各个行业的未来中保持重要。理解液压技术的原理和应用对于任何对工程、机械或任何依赖流体动力推动进步的领域感兴趣的人来说都是至关重要的。
