vibration proof

简明释义

耐振的

英英释义

例句

1.The vibration proof design of the speaker ensures clear sound quality even at high volumes.

扬声器的防震设计确保即使在高音量下也能保持清晰的音质。

2.For outdoor adventures, I always choose vibration proof gear to avoid damage.

对于户外探险，我总是选择防震装备以避免损坏。

3.This camera features a vibration proof lens, making it ideal for capturing stable images in moving conditions.

这款相机配备了防震镜头，非常适合在移动条件下拍摄稳定的图像。

4.Our industrial equipment comes with vibration proof mounts to reduce wear and tear during operation.

我们的工业设备配有防震支架，以减少操作过程中的磨损。

5.The new smartphone case is designed to be vibration proof, ensuring it can withstand drops and bumps.

新的智能手机保护壳被设计为防震，确保它能够承受跌落和碰撞。

作文

In today's rapidly evolving technological landscape, the importance of durable and reliable equipment cannot be overstated. One key feature that many industries seek in their machinery is being vibration proof. This term refers to the ability of an object or device to withstand vibrations without suffering damage or degradation in performance. The significance of vibration proof technology spans various fields, including manufacturing, aerospace, and electronics.For instance, in the manufacturing sector, heavy machinery often operates under conditions where vibrations are inevitable. These vibrations can result from the machinery's own operation or from external sources, such as nearby equipment. If machines are not designed to be vibration proof, they may experience premature wear and tear, leading to costly repairs and downtime. By utilizing vibration proof components, manufacturers can enhance the longevity and reliability of their equipment, ultimately improving productivity and reducing operational costs.Similarly, in the aerospace industry, aircraft must endure extreme conditions during flight, including turbulence and engine vibrations. Components within an aircraft, such as sensors and electronic systems, need to be vibration proof to ensure they function correctly throughout the flight. Failure of these critical components due to vibrations could jeopardize the safety of the aircraft and its passengers. Therefore, engineers prioritize vibration proof designs to maintain the integrity and performance of aerospace technologies.The electronics industry also benefits significantly from vibration proof innovations. Many electronic devices, especially those used in mobile applications, are subject to constant movement and vibrations. For example, smartphones and tablets are often carried in bags or pockets, where they can be jostled around. If the internal components of these devices are not vibration proof, they may become dislodged or damaged, resulting in malfunction or total failure. As a result, manufacturers are increasingly focusing on developing vibration proof designs to enhance the durability of consumer electronics.To achieve vibration proof capabilities, engineers employ various strategies, including the use of specialized materials, innovative mounting techniques, and advanced design principles. For example, rubber isolators can be used to absorb vibrations and prevent them from affecting sensitive components. Additionally, thorough testing and analysis are conducted to ensure that products meet strict vibration proof standards before they reach the market.In conclusion, the concept of being vibration proof is crucial across multiple industries, ensuring that equipment remains functional and reliable even in the face of vibrations. As technology continues to advance, the demand for vibration proof solutions will only grow. Companies that invest in this technology will likely see improved performance, reduced maintenance costs, and increased customer satisfaction. Ultimately, understanding and implementing vibration proof features will play a vital role in the success of modern engineering and manufacturing practices.

在当今快速发展的技术环境中，耐用和可靠设备的重要性不容低估。许多行业在其机械设备中寻求的一个关键特征是具备抗振动能力。这个术语指的是物体或设备在不受损坏或性能下降的情况下承受振动的能力。抗振动技术的重要性跨越多个领域，包括制造业、航空航天和电子产品。例如，在制造业中，重型机械通常在不可避免的振动条件下运行。这些振动可能来自机器自身的操作或来自外部源，如附近的设备。如果机器没有设计成抗振动，它们可能会经历过早的磨损，导致昂贵的维修和停机。通过利用抗振动组件，制造商可以增强其设备的使用寿命和可靠性，从而最终提高生产力并降低运营成本。同样，在航空航天行业，飞机在飞行过程中必须承受极端条件，包括气流和发动机振动。飞机内部的组件，如传感器和电子系统，需要具备抗振动能力，以确保它们在整个飞行过程中正常工作。由于振动导致这些关键组件的故障可能会危及飞机及其乘客的安全。因此，工程师优先考虑抗振动设计，以维护航空航天技术的完整性和性能。电子行业也从抗振动创新中受益匪浅。许多电子设备，尤其是在移动应用中使用的设备，常常受到持续的运动和振动。例如，智能手机和平板电脑通常放在包或口袋中，可能会被摇晃。如果这些设备的内部组件没有抗振动能力，它们可能会脱落或损坏，导致故障或完全失效。因此，制造商越来越关注开发抗振动设计，以增强消费电子产品的耐用性。为了实现抗振动能力，工程师采用各种策略，包括使用专门材料、创新的安装技术和先进的设计原则。例如，可以使用橡胶隔离器来吸收振动，并防止它们影响敏感组件。此外，还会进行全面的测试和分析，以确保产品在上市前符合严格的抗振动标准。总之，具备抗振动能力的概念在多个行业中至关重要，确保设备在面对振动时保持功能和可靠性。随着技术的不断进步，对抗振动解决方案的需求只会增加。投资于这一技术的公司可能会看到性能改善、维护成本降低和客户满意度提高。最终，理解和实施抗振动特性将在现代工程和制造实践的成功中发挥重要作用。