vibration acceleration

简明释义

振动加速度

英英释义

例句

1.Excessive vibration acceleration 振动加速度 can lead to increased wear and tear on components.

过度的振动加速度 vibration acceleration会导致零部件的磨损加剧。

2.Monitoring vibration acceleration 振动加速度 is crucial for the maintenance of heavy machinery.

监测振动加速度 vibration acceleration对于重型机械的维护至关重要。

3.High levels of vibration acceleration 振动加速度 can indicate potential mechanical failures.

高水平的振动加速度 vibration acceleration可能表明潜在的机械故障。

4.The technician used a sensor to record the vibration acceleration 振动加速度 during the test.

技术员在测试期间使用传感器记录了振动加速度 vibration acceleration。

5.The engineer measured the vibration acceleration 振动加速度 of the machine to ensure it was operating within safe limits.

工程师测量了机器的振动加速度 vibration acceleration，以确保其在安全范围内运行。

作文

Vibration is a common phenomenon that occurs in various mechanical systems. It refers to the oscillation or repetitive motion of an object around an equilibrium position. In many engineering applications, understanding the concept of vibration acceleration (振动加速度) is crucial for ensuring the reliability and safety of machinery. Vibration acceleration is defined as the rate of change of velocity of an object in motion due to vibration. It is typically measured in units of g (where g is the acceleration due to gravity, approximately 9.81 m/s²). In mechanical systems, components such as motors, pumps, and turbines often experience vibrations during operation. These vibrations can arise from unbalanced forces, misalignments, or external disturbances. When these components vibrate, they do not just move back and forth; they also accelerate. This is where the concept of vibration acceleration becomes important. It helps engineers assess the severity of vibrations and their potential impact on the system's performance. For instance, excessive vibration acceleration can lead to fatigue failure in materials, resulting in costly repairs and downtime. Therefore, monitoring and analyzing vibration acceleration is essential in predictive maintenance strategies. By measuring the vibration acceleration of machinery, engineers can identify abnormal patterns that may indicate impending failures. This proactive approach allows for timely interventions, reducing the risk of catastrophic failures. In addition to mechanical systems, vibration acceleration plays a significant role in civil engineering, particularly in the design of structures like bridges and buildings. Engineers must consider the effects of environmental factors, such as wind and seismic activity, which can induce vibrations in structures. By analyzing vibration acceleration, they can ensure that the structures can withstand these forces without compromising safety. Moreover, the measurement of vibration acceleration is facilitated by various sensors and accelerometers. These devices can capture the dynamic response of a system and provide valuable data for analysis. The collected data can be processed using advanced algorithms to extract meaningful insights regarding the health of the machinery or structure. In conclusion, understanding vibration acceleration (振动加速度) is vital for engineers across multiple disciplines. Whether it is in mechanical systems or structural engineering, the ability to measure and analyze vibration acceleration enables professionals to enhance performance, ensure safety, and extend the lifespan of various systems. As technology advances, the methods for monitoring vibration acceleration will continue to improve, leading to more efficient and reliable engineering practices.

振动是各种机械系统中常见的现象。它指的是物体围绕平衡位置的振荡或重复运动。在许多工程应用中，理解振动加速度（vibration acceleration）的概念对于确保机械的可靠性和安全性至关重要。振动加速度被定义为由于振动而导致的物体运动速度的变化率。通常以g为单位进行测量（g是重力加速度，约为9.81 m/s²）。在机械系统中，电机、泵和涡轮等组件在运行过程中经常会经历振动。这些振动可能是由于不平衡的力、对准不当或外部干扰引起的。当这些组件振动时，它们不仅是来回移动，还会加速。这就是振动加速度概念变得重要的地方。它帮助工程师评估振动的严重程度及其对系统性能的潜在影响。例如，过度的振动加速度可能导致材料的疲劳失效，从而导致昂贵的维修和停机。因此，监测和分析振动加速度在预测性维护策略中至关重要。通过测量机械的振动加速度，工程师可以识别出可能表明即将发生故障的异常模式。这种主动的方法允许及时干预，减少灾难性故障的风险。除了机械系统之外，振动加速度在土木工程中也发挥着重要作用，特别是在桥梁和建筑物的设计中。工程师必须考虑环境因素的影响，例如风和地震活动，这些因素可能会在结构中引发振动。通过分析振动加速度，他们可以确保结构能够承受这些力量而不妨碍安全。此外，振动加速度的测量得益于各种传感器和加速度计。这些设备可以捕获系统的动态响应，并提供有价值的数据进行分析。收集到的数据可以使用先进的算法进行处理，以提取有关机械或结构健康的有意义的见解。总之，理解振动加速度（振动加速度）对多个学科的工程师至关重要。无论是在机械系统还是结构工程中，测量和分析振动加速度的能力使专业人士能够提高性能、确保安全并延长各种系统的使用寿命。随着技术的进步，监测振动加速度的方法将不断改进，从而促进更高效、更可靠的工程实践。