laminated spring

简明释义

迭板殚簧

英英释义

例句

1.In automotive applications, a laminated spring 层压弹簧 can reduce weight while maintaining performance.

在汽车应用中，层压弹簧laminated spring可以在保持性能的同时减轻重量。

2.The engineer designed a new type of laminated spring 层压弹簧 that improves flexibility and durability.

工程师设计了一种新的层压弹簧laminated spring，提高了灵活性和耐用性。

3.A laminated spring 层压弹簧 is often preferred in high-stress environments due to its resilience.

在高应力环境中，通常更喜欢使用层压弹簧laminated spring，因为它的韧性。

4.The furniture manufacturer uses a laminated spring 层压弹簧 in their reclining chairs for added comfort.

家具制造商在他们的可调椅中使用层压弹簧laminated spring以增加舒适度。

5.The prototype included a laminated spring 层压弹簧 that could withstand extreme temperatures.

原型包括一个可以承受极端温度的层压弹簧laminated spring。

作文

In the world of mechanical engineering, the design and function of various components play a crucial role in ensuring efficiency and durability. One such component that has gained popularity in recent years is the laminated spring. A laminated spring is a type of spring made from multiple layers of material, typically metal, which are bonded together to create a single unit. This design allows for greater flexibility and strength compared to traditional springs. The laminated structure distributes stress more evenly, reducing the risk of failure under heavy loads.The advantages of using a laminated spring are numerous. For instance, they can be manufactured to meet specific requirements for different applications. In automotive industries, laminated springs are often used in suspension systems, providing improved ride comfort and handling. Their ability to absorb shocks and vibrations makes them ideal for vehicles that encounter rough terrains.Moreover, laminated springs are also utilized in various industrial applications, such as in machinery and equipment where precision and reliability are essential. The layered construction allows these springs to operate effectively under varying conditions, making them suitable for high-performance environments. Additionally, the manufacturing process of laminated springs can be tailored to enhance their properties, such as corrosion resistance or fatigue strength, further expanding their usability.Another significant benefit of laminated springs is their lightweight nature. Traditional springs can be bulky and heavy, whereas laminated designs can reduce weight without compromising strength. This characteristic is particularly advantageous in aerospace applications, where every ounce matters. Engineers are constantly seeking ways to minimize weight while maximizing performance, and laminated springs fit this criterion perfectly.However, it is essential to consider that the production of laminated springs requires advanced techniques and materials. The bonding process must ensure that the layers adhere properly to maintain the integrity of the spring. Any flaws in the manufacturing process could lead to premature failure, which underscores the importance of quality control in the production of these components.In conclusion, the laminated spring represents a remarkable advancement in spring technology, offering enhanced performance, durability, and versatility across various applications. As industries continue to evolve and demand higher efficiency and reliability, the role of laminated springs will undoubtedly become more prominent. Understanding the benefits and applications of these springs is crucial for engineers and designers who aim to innovate and improve their products. By leveraging the unique properties of laminated springs, we can pave the way for future advancements in mechanical engineering and beyond.

在机械工程的世界中，各种组件的设计和功能在确保效率和耐用性方面起着至关重要的作用。近年来，层压弹簧作为一种越来越受欢迎的组件，得到了广泛关注。层压弹簧是一种由多层材料（通常是金属）组成的弹簧，这些材料被粘合在一起形成一个单一的单元。这种设计相较于传统弹簧具有更大的灵活性和强度。层压结构可以更均匀地分配应力，从而降低在重负荷下失效的风险。使用层压弹簧的优点有很多。例如，它们可以根据不同应用的具体要求进行制造。在汽车工业中，层压弹簧常用于悬挂系统，提高乘坐舒适性和操控性。它们吸收冲击和振动的能力使其非常适合在崎岖地形上行驶的车辆。此外，层压弹簧还被广泛应用于各种工业领域，例如在对精度和可靠性要求很高的机械和设备中。层压结构使这些弹簧能够在不同条件下有效运行，非常适合高性能环境。此外，层压弹簧的制造过程可以针对其特性进行调整，例如增强耐腐蚀性或疲劳强度，进一步扩大其可用性。层压弹簧的另一个显著优点是其轻便的特性。传统的弹簧可能笨重且重量大，而层压设计可以在不妥协强度的情况下减轻重量。这一特性在航空航天应用中尤为重要，因为每盎司都至关重要。工程师们不断寻求在最大化性能的同时最小化重量的方法，而层压弹簧正好符合这一标准。然而，需要考虑的是，生产层压弹簧需要先进的技术和材料。粘合过程必须确保各层正确粘合，以保持弹簧的完整性。生产过程中的任何缺陷都可能导致早期失效，这突显了在这些组件的生产中质量控制的重要性。总之，层压弹簧代表了弹簧技术的显著进步，在各类应用中提供了增强的性能、耐用性和多功能性。随着各行业的不断发展，对更高效率和可靠性的需求日益增长，层压弹簧的作用无疑将变得更加突出。理解这些弹簧的优点和应用对于希望创新和改进产品的工程师和设计师至关重要。通过利用层压弹簧的独特特性，我们可以为机械工程及其他领域的未来进步铺平道路。