resistance to vibration
简明释义
耐振性
英英释义
The ability of a material or structure to withstand oscillations or disturbances without undergoing significant deformation or failure. | 材料或结构在不发生显著变形或破坏的情况下,抵抗振动或扰动的能力。 |
例句
1.Engineers are testing the resistance to vibration of the bridge under various load conditions.
工程师正在测试桥梁在不同载荷条件下的抗震性。
2.This industrial equipment is designed with high resistance to vibration to ensure long-term performance.
这台工业设备设计有高抗震性以确保长期性能。
3.In automotive design, resistance to vibration is crucial for maintaining component integrity.
在汽车设计中,抗震性对于保持组件完整性至关重要。
4.The manufacturer claims that their new product offers enhanced resistance to vibration compared to previous models.
制造商声称他们的新产品相比于之前的型号提供了增强的抗震性。
5.The new smartphone model has improved resistance to vibration for better durability.
新款智能手机具有更好的抗震性以提高耐用性。
作文
In the modern world, the importance of technology cannot be overstated. From smartphones to automobiles, our lives are intertwined with devices that require precision and durability. One critical aspect of engineering these devices is ensuring their resistance to vibration. This term refers to the ability of a structure or material to withstand the forces generated by vibrations without succumbing to damage or failure. Understanding and implementing resistance to vibration is essential for various industries, particularly in manufacturing, aerospace, and automotive sectors.Vibrations can arise from numerous sources, including machinery operation, road conditions, and even natural phenomena like earthquakes. When a product is subjected to such vibrations, it can lead to wear and tear, misalignment, and ultimately, catastrophic failure. Therefore, engineers must design components that exhibit adequate resistance to vibration to ensure longevity and reliability.For instance, in the automotive industry, vehicles encounter a wide range of vibrations while in motion. These vibrations can originate from the engine, the road surface, and even the tires. If the components of a vehicle, such as the suspension system or electronic devices, do not have sufficient resistance to vibration, they may fail prematurely. This can lead to safety issues, increased maintenance costs, and reduced customer satisfaction. Consequently, manufacturers invest heavily in research and development to create materials and designs that enhance resistance to vibration.Similarly, in the aerospace sector, aircraft are exposed to extreme vibrational forces during takeoff, flight, and landing. The materials used in aircraft must possess high levels of resistance to vibration to ensure structural integrity and passenger safety. Engineers utilize advanced materials like composites and alloys that are specifically designed to absorb and dissipate vibrational energy. These materials help prevent fatigue and extend the lifespan of critical components, such as wings and fuselage.Moreover, the significance of resistance to vibration extends beyond just mechanical structures. In electronics, devices such as smartphones and tablets are often subjected to drops and shocks, which can generate vibrations that affect internal components. Manufacturers employ techniques such as shock mounting and the use of flexible materials to enhance resistance to vibration in these devices. This ensures that sensitive components, like circuit boards and batteries, remain intact and functional despite external forces.In conclusion, resistance to vibration plays a pivotal role in the design and manufacturing of a wide array of products across various industries. Its importance cannot be overlooked, as it directly impacts the safety, performance, and durability of devices. As technology continues to evolve, the need for enhanced resistance to vibration will only grow, driving innovation and advancements in material science and engineering practices. By prioritizing this aspect in design, manufacturers can produce more reliable and robust products that meet the demands of an increasingly dynamic environment.
在现代社会,科技的重要性不容小觑。从智能手机到汽车,我们的生活与需要精密和耐用性的设备密切相关。工程设计这些设备时,一个关键的方面是确保它们的抗振动能力。这个术语指的是结构或材料在不遭受损坏或失效的情况下承受振动产生的力量的能力。理解和实施抗振动能力对于各个行业至关重要,特别是在制造、航空航天和汽车领域。振动可以来自许多来源,包括机械操作、道路条件,甚至自然现象如地震。当产品受到这样的振动时,可能会导致磨损、错位,最终导致灾难性故障。因此,工程师必须设计具备足够抗振动能力的部件,以确保其使用寿命和可靠性。例如,在汽车工业中,车辆在行驶过程中会遇到各种振动。这些振动可能源于发动机、路面,甚至轮胎。如果车辆的组件,如悬挂系统或电子设备,缺乏足够的抗振动能力,它们可能会过早失效。这可能导致安全问题、增加维护成本和降低客户满意度。因此,制造商在研发上投入大量资金,以创造增强抗振动能力的材料和设计。同样,在航空航天领域,飞机在起飞、飞行和着陆时会受到极端的振动力量。用于飞机的材料必须具有高水平的抗振动能力,以确保结构完整性和乘客安全。工程师利用先进的复合材料和合金,这些材料专门设计用于吸收和耗散振动能量。这些材料有助于防止疲劳,延长关键组件的使用寿命,如机翼和机身。此外,抗振动能力的重要性不仅仅局限于机械结构。在电子产品中,智能手机和平板电脑经常受到跌落和冲击,这可能产生影响内部组件的振动。制造商采用诸如减震安装和使用柔性材料等技术来增强这些设备的抗振动能力。这确保了敏感组件,如电路板和电池,即使在外力作用下也保持完好和功能正常。总之,抗振动能力在设计和制造各类产品中发挥着关键作用,涵盖多个行业。其重要性不容忽视,因为它直接影响设备的安全性、性能和耐用性。随着技术的不断发展,对增强抗振动能力的需求只会增加,从而推动材料科学和工程实践的创新与进步。通过在设计中优先考虑这一方面,制造商可以生产出更可靠、更坚固的产品,以满足日益动态环境的需求。
相关单词
