liquid damper

简明释义

液体阻尼器

英英释义

例句

1.The engineer installed a liquid damper to reduce vibrations in the bridge.

工程师安装了一个液体阻尼器以减少桥梁的振动。

2.In industrial machinery, a liquid damper helps minimize the impact of sudden loads.

在工业机械中，液体阻尼器帮助最小化突加载的影响。

3.The liquid damper in the HVAC system reduces noise and vibration.

HVAC系统中的液体阻尼器减少了噪音和振动。

4.The car's suspension system was upgraded with a liquid damper for better handling.

汽车的悬挂系统升级了液体阻尼器以获得更好的操控性能。

5.Using a liquid damper can significantly improve the stability of tall buildings during an earthquake.

使用液体阻尼器可以显著提高高层建筑在地震中的稳定性。

作文

In the field of engineering and design, one of the most significant advancements has been the development of various damping systems. Among these, the liquid damper (液体阻尼器) stands out as an innovative solution for controlling vibrations and enhancing stability in structures. A liquid damper (液体阻尼器) is a device that uses liquid to absorb and dissipate energy, particularly in response to dynamic loads such as earthquakes or heavy winds. This technology is crucial in ensuring the safety and longevity of buildings, bridges, and other infrastructures.The basic principle behind a liquid damper (液体阻尼器) is relatively straightforward. When vibrations occur, the liquid inside the damper moves in response to the motion. This movement creates friction and turbulence within the liquid, which effectively dissipates the energy generated by the vibrations. As a result, the overall movement of the structure is reduced, leading to increased stability.One of the primary advantages of using a liquid damper (液体阻尼器) is its ability to adapt to varying conditions. Unlike traditional solid dampers, which can be limited by their material properties, liquid dampers (液体阻尼器) can be designed with different types of fluids to optimize performance based on specific requirements. For example, some designs utilize viscous fluids that provide greater resistance to movement, while others may use lighter liquids for more responsive damping.Moreover, liquid dampers (液体阻尼器) are often more compact than their solid counterparts, making them easier to integrate into existing structures without significant modifications. This is particularly beneficial for retrofitting older buildings that may not have been designed with modern damping technologies in mind. The installation of a liquid damper (液体阻尼器) can enhance the performance of a building without altering its aesthetic appeal.In recent years, the use of liquid dampers (液体阻尼器) has gained popularity in high-rise buildings and bridges, where the risk of sway and vibration is heightened. Engineers have found that incorporating these devices can significantly reduce the amplitude of oscillations during seismic events, thus protecting the structural integrity of the buildings and the safety of their occupants.Furthermore, research and development in this area continue to evolve, with new materials and designs being tested to improve the efficiency and effectiveness of liquid dampers (液体阻尼器). For instance, some researchers are exploring the use of smart materials that can change their properties in real-time, allowing for even greater control over vibrations.In conclusion, the liquid damper (液体阻尼器) represents a pivotal advancement in the field of structural engineering. Its ability to absorb and dissipate energy from vibrations makes it an essential tool for enhancing the safety and durability of various structures. As technology continues to progress, we can expect to see even more innovative applications of liquid dampers (液体阻尼器), further solidifying their role in modern engineering practices.

在工程和设计领域，最重要的进展之一是各种阻尼系统的发展。在这些系统中，液体阻尼器（liquid damper）作为一种创新解决方案，突显出其在控制振动和增强结构稳定性方面的重要性。液体阻尼器（liquid damper）是一种利用液体吸收和耗散能量的装置，特别是在地震或强风等动态负载的情况下。这项技术对于确保建筑物、桥梁和其他基础设施的安全性和耐久性至关重要。液体阻尼器（liquid damper）的基本原理相对简单。当发生振动时，阻尼器内部的液体会随运动而移动。这种运动在液体内部产生摩擦和湍流，有效地耗散了振动产生的能量。因此，结构的整体运动得以减少，从而提高了稳定性。使用液体阻尼器（liquid damper）的主要优点之一是其适应不同条件的能力。与传统的固体阻尼器相比，后者可能受到材料特性的限制，液体阻尼器（liquid damper）可以设计成使用不同类型的流体，以根据具体要求优化性能。例如，一些设计利用粘性流体来提供更大的运动阻力，而其他设计则可能使用较轻的液体以实现更灵敏的阻尼。此外，液体阻尼器（liquid damper）通常比其固体对应物更紧凑，使其更容易集成到现有结构中，而不需要进行重大修改。这对于改造较旧的建筑尤其有利，因为这些建筑可能没有考虑现代阻尼技术。安装液体阻尼器（liquid damper）可以在不改变建筑美学的情况下，提高建筑的性能。近年来，液体阻尼器（liquid damper）在高层建筑和桥梁中的使用越来越普遍，这些地方面临着更大的摇摆和振动风险。工程师们发现，结合这些装置可以显著降低地震事件期间的振荡幅度，从而保护建筑的结构完整性和居民的安全。此外，该领域的研究和发展持续演进，新材料和设计正在被测试，以提高液体阻尼器（liquid damper）的效率和有效性。例如，一些研究人员正在探索智能材料的使用，这些材料能够实时改变其特性，从而允许对振动进行更大的控制。总之，液体阻尼器（liquid damper）代表了结构工程领域的一个重要进展。其吸收和耗散振动能量的能力使其成为增强各种结构安全性和耐久性的关键工具。随着技术的不断进步，我们可以期待看到液体阻尼器（liquid damper）在现代工程实践中更具创新性的应用，进一步巩固其作用。