vibration strength
简明释义
抗振强度
英英释义
Vibration strength refers to the magnitude or intensity of oscillatory motion in a physical system, often measured in terms of amplitude or energy. | 振动强度是指物理系统中振动运动的大小或强度,通常以振幅或能量来衡量。 |
例句
1.To reduce noise, we need to analyze the vibration strength 振动强度 of the HVAC system.
为了减少噪音,我们需要分析HVAC系统的振动强度 vibration strength。
2.The vibration strength 振动强度 of the bridge was monitored regularly to prevent structural damage.
桥梁的振动强度 vibration strength定期监测,以防止结构损坏。
3.The engineer measured the vibration strength 振动强度 of the machine to ensure it was operating within safe limits.
工程师测量了机器的振动强度 vibration strength,以确保其在安全范围内运行。
4.During the test, the vibration strength 振动强度 exceeded the expected thresholds.
在测试过程中,振动强度 vibration strength超过了预期的阈值。
5.High vibration strength 振动强度 can lead to equipment failure in industrial settings.
高振动强度 vibration strength可能导致工业环境中的设备故障。
作文
Vibration is a common phenomenon in our daily lives, often unnoticed until it becomes a problem. One crucial aspect of vibration is its strength, referred to as vibration strength. This term describes the intensity or magnitude of the vibrations experienced by an object or a system. Understanding vibration strength is essential in various fields, including engineering, construction, and even music. In engineering, for instance, structures are designed to withstand certain levels of vibration to ensure safety and longevity. If the vibration strength exceeds the designed limits, it could lead to catastrophic failures. Therefore, engineers must conduct thorough analyses to determine the expected vibration strength during the lifecycle of a structure.In construction, the vibration strength of machinery can affect nearby buildings and infrastructure. Heavy equipment like pile drivers or excavators generates significant vibrations that can compromise the integrity of adjacent structures. As a result, construction companies often monitor the vibration strength to minimize potential damage. They use specialized equipment to measure vibrations and implement mitigation strategies if necessary. This proactive approach not only protects existing structures but also ensures compliance with local regulations regarding permissible vibration strength levels.In the realm of music, vibration strength plays a vital role in sound production. Musical instruments produce sound through vibrations, and the strength of these vibrations determines the volume and quality of the sound. For example, a guitar string plucked with greater force generates a stronger vibration, resulting in a louder sound. Musicians often experiment with different techniques to manipulate the vibration strength of their instruments, striving for the perfect balance between volume and tone.Moreover, in the field of health and wellness, understanding vibration strength can be beneficial. Certain therapies utilize vibrations for therapeutic purposes, such as physical rehabilitation or stress relief. The effectiveness of these treatments can depend on the vibration strength applied. Therapists must carefully calibrate the vibration strength to ensure it is effective without being uncomfortable for the patient. This highlights the importance of understanding the nuances of vibration strength in diverse applications.In conclusion, vibration strength is a multifaceted concept that impacts several areas of life and industry. Whether in engineering, construction, music, or health, recognizing and managing vibration strength is crucial for achieving desired outcomes. As technology advances, our ability to measure and control vibration strength continues to improve, leading to safer structures, better musical experiences, and enhanced therapeutic practices. By deepening our understanding of vibration strength, we can harness its potential while mitigating its risks.
振动是我们日常生活中常见的现象,通常在它成为问题之前并不被注意。振动的一个重要方面是其强度,称为振动强度。这个术语描述了物体或系统所经历的振动的强度或大小。理解振动强度在工程、建筑甚至音乐等多个领域都是至关重要的。例如,在工程中,结构被设计成能够承受一定水平的振动,以确保安全和耐久性。如果振动强度超过设计限制,可能会导致灾难性的失败。因此,工程师必须进行彻底的分析,以确定在结构生命周期内预期的振动强度。在建筑中,机械的振动强度可能会影响附近的建筑物和基础设施。重型设备如打桩机或挖掘机会产生显著的振动,这可能会损害邻近结构的完整性。因此,建筑公司通常会监测振动强度以最小化潜在的损害。他们使用专门的设备来测量振动,并在必要时实施缓解策略。这种主动的方法不仅保护现有结构,还确保遵守当地关于允许的振动强度水平的法规。在音乐领域,振动强度在声音生产中起着至关重要的作用。乐器通过振动产生声音,而这些振动的强度决定了声音的音量和质量。例如,用更大力气拨动吉他弦会产生更强的振动,从而导致声音更响亮。音乐家经常尝试不同的技巧来操控乐器的振动强度,努力在音量和音色之间达到完美的平衡。此外,在健康和保健领域,理解振动强度可能是有益的。某些疗法利用振动进行治疗,例如物理康复或压力缓解。这些治疗的有效性可能取决于施加的振动强度。治疗师必须仔细校准振动强度,以确保其有效而不会让患者感到不适。这突显了在多种应用中理解振动强度细微差别的重要性。总之,振动强度是一个多方面的概念,影响着生活和行业的多个领域。无论是在工程、建筑、音乐还是健康中,认识和管理振动强度对于实现预期的结果至关重要。随着技术的进步,我们测量和控制振动强度的能力不断提高,从而导致更安全的结构、更好的音乐体验和更有效的治疗实践。通过加深对振动强度的理解,我们可以利用其潜力,同时降低其风险。
相关单词
