vibratory

简明释义

英[ˈvaɪbrətəri]美[ˈvaɪbrəˌtoʊrɪ]

adj. 振动性的；震动的

英英释义

单词用法

同义词

反义词

例句

1.It is widely used hydraulic excavators, vibratory road roller and other Construction machinery.

它广泛用于液压挖掘机，振动式压路机和其它工程机械。

2.It is widely used in hydraulic excavators, vibratory road roller and other Construction Machinery.

它广泛用于液压挖掘机，振动式压路机和其它工程机械。

3.The micro quartz crystal tuning fork gyroscope is a new type of vibratory gyroscope.

石英音叉陀螺是一种新型的振动陀螺。

4.This inconvenience, or disharmonious vibratory complex, has begun several of your years in the past.

这些不便，或者称为不和谐的振动复合体，已经在几年前就开始了。

5.This simple vibratory realm will be a great ally to you as you pass through the current planetary transition state.

这个简单易行的振动状态，将会是一个伟大的伙伴，伴你通过行星当前的转变阶段。

6.Feeding paper stable by Vibratory Motor.

震动电机驱动送纸，输纸平稳。

7.The vibratory roller is one of the main construction machines. It is widely used in various base compactions.

振动压路机是主要的施工机械之一，被广泛应用于各种基础压实施工中。

8.The new massage chair features a powerful vibratory system that helps relieve muscle tension.

这款新按摩椅配备了强大的振动系统，有助于缓解肌肉紧张。

9.The vibratory signals from the phone alerted me to an incoming message.

手机发出的振动信号提醒我有一条新消息。

10.In construction, vibratory rollers are used to compact soil effectively.

在建筑中，振动压路机被用来有效地压实土壤。

11.The vibratory feeder ensures a steady flow of materials in the production line.

这个振动喂料器确保生产线上的材料流动稳定。

12.During the experiment, we observed the vibratory motion of the particles under the microscope.

在实验过程中，我们在显微镜下观察到了颗粒的振动运动。

作文

In the realm of physics and engineering, the concept of vibration plays a crucial role in understanding how objects interact with forces. One term that often comes up in this context is vibratory（振动的）. This adjective describes anything related to or characterized by vibrations. Whether it’s a simple pendulum swinging back and forth or a complex machinery system operating at high frequencies, the vibratory（振动的）nature of these systems can significantly influence their performance and functionality. For instance, in the field of construction, vibratory（振动的）compactors are commonly used to ensure that soil is adequately compressed before laying foundations. The vibratory（振动的）action of these machines helps to eliminate air pockets and increase the density of the soil, making it more stable for the structures that will be built on top. Without this vibratory（振动的）process, buildings could face structural issues due to uneven settling over time. Moreover, in the world of music, instruments like drums and guitars utilize vibratory（振动的）mechanisms to produce sound. When a drumhead is struck, it vibrates, creating sound waves that travel through the air. Similarly, when a guitar string is plucked, it undergoes a vibratory（振动的）motion that generates musical notes. The quality and richness of the sound produced depend heavily on the vibratory（振动的）characteristics of the instrument. In addition to these examples, the concept of vibratory（振动的）motion is also essential in the field of medicine, particularly in therapies involving ultrasound. Ultrasound machines utilize vibratory（振动的）waves to create images of the inside of the body. These vibratory（振动的）waves can penetrate tissues and provide valuable information about organs and structures without the need for invasive procedures. This non-invasive technique has revolutionized diagnostics and treatment planning in modern medicine. Furthermore, the study of vibratory（振动的）systems extends into the realm of environmental science. For example, researchers investigate how vibratory（振动的）waves generated by natural phenomena, such as earthquakes, can affect the stability of ecosystems. Understanding these vibratory（振动的）patterns can help in predicting potential hazards and mitigating their impact on both human life and the environment. In conclusion, the term vibratory（振动的）is not just a scientific jargon; it encompasses a wide range of applications across various fields. From construction and music to medicine and environmental science, the implications of vibratory（振动的）motion are profound. By grasping the significance of this term, we can appreciate the intricate ways in which vibrations influence our world and contribute to advancements in technology, art, and science. As we continue to explore the dynamics of vibratory（振动的）systems, we unlock new potentials that can enhance our understanding of both the physical and abstract realms around us.

在物理和工程领域，振动的概念在理解物体如何与力相互作用方面起着至关重要的作用。一个常常出现的术语是vibratory（振动的）。这个形容词描述了与振动相关或具有振动特征的任何事物。无论是简单的摆锤来回摆动，还是高频率运行的复杂机械系统，这些系统的vibratory（振动的）特性都可以显著影响它们的性能和功能。 例如，在建筑领域，常用vibratory（振动的）压实机来确保在铺设基础之前土壤得到充分压实。这些机器的vibratory（振动的）动作有助于消除空气口袋并增加土壤的密度，使其在上面建造的结构更加稳定。如果没有这个vibratory（振动的）过程，建筑物可能会由于时间的推移而面临因不均匀沉降而导致的结构问题。 此外，在音乐的世界中，鼓和吉他等乐器利用vibratory（振动的）机制来产生声音。当鼓面被击打时，它会振动，产生声波通过空气传播。类似地，当拨动吉他弦时，它会经历vibratory（振动的）运动，从而生成音乐音符。产生的声音质量和丰富性在很大程度上依赖于乐器的vibratory（振动的）特性。 除了这些例子，vibratory（振动的）运动的概念在医学领域也至关重要，特别是在涉及超声波的治疗中。超声波机器利用vibratory（振动的）波来创建身体内部的图像。这些vibratory（振动的）波可以穿透组织，提供关于器官和结构的宝贵信息，而无需侵入性程序。这种非侵入性技术彻底改变了现代医学中的诊断和治疗规划。 此外，vibratory（振动的）系统的研究还扩展到环境科学领域。例如，研究人员调查自然现象（如地震）产生的vibratory（振动的）波如何影响生态系统的稳定性。理解这些vibratory（振动的）模式可以帮助预测潜在的危害并减轻它们对人类生活和环境的影响。 总之，术语vibratory（振动的）不仅仅是科学术语；它涵盖了各个领域的广泛应用。从建筑和音乐到医学和环境科学，vibratory（振动的）运动的影响是深远的。通过掌握这个术语的重要性，我们可以欣赏到振动如何影响我们的世界并促进技术、艺术和科学的进步。随着我们继续探索vibratory（振动的）系统的动态，我们解锁了新的潜力，这些潜力可以增强我们对周围物理和抽象领域的理解。