bearing surface

简明释义

支承面

英英释义

例句

1.To ensure longevity, the bearing surface 承载表面 of the wheel must be properly lubricated.

为了确保耐用性，车轮的承载表面 bearing surface必须得到适当的润滑。

2.The engineer specified a smooth bearing surface 承载表面 to reduce friction in the machinery.

工程师指定了一个光滑的承载表面 bearing surface以减少机械中的摩擦。

3.A rough bearing surface 承载表面 can lead to increased heat generation during operation.

粗糙的承载表面 bearing surface可能导致运行过程中产生更多热量。

4.We need to inspect the bearing surface 承载表面 for any signs of wear and tear.

我们需要检查承载表面 bearing surface是否有磨损的迹象。

5.The quality of the bearing surface 承载表面 directly impacts the performance of the engine.

承载表面 bearing surface的质量直接影响发动机的性能。

作文

In the field of engineering and manufacturing, the term bearing surface refers to the area of contact between two surfaces, typically where one surface supports another. Understanding the concept of bearing surface is crucial for designing mechanical components that require movement or load-bearing capabilities. For instance, in a rotating shaft, the bearing surface is where the shaft meets the bearing, allowing for smooth rotation while minimizing friction and wear. The quality and characteristics of the bearing surface greatly influence the performance and longevity of mechanical systems. Factors such as material selection, surface finish, and lubrication play significant roles in determining how effectively a bearing surface can function. A well-designed bearing surface can reduce friction, prevent overheating, and enhance the overall efficiency of machinery.Moreover, different applications require specific types of bearing surfaces. For example, in automotive engineering, the bearing surface of an engine's crankshaft must withstand high temperatures and pressures while maintaining its shape and integrity. Engineers often use advanced materials and coatings to improve the durability of these surfaces, ensuring that they can handle the stresses imposed during operation.In addition to traditional mechanical applications, the concept of bearing surface is also relevant in fields like civil engineering and architecture. For instance, when constructing bridges, the bearing surface of support beams is critical for distributing loads evenly. If the bearing surface is not properly designed, it can lead to structural failures, which may result in costly repairs or even catastrophic accidents.Furthermore, advancements in technology have led to the development of specialized bearing surfaces that can adapt to various conditions. Innovations such as self-lubricating bearings and composite materials have emerged, providing engineers with more options to enhance performance. These modern solutions aim to extend the lifespan of bearing surfaces while reducing maintenance costs. In conclusion, the importance of understanding bearing surface cannot be overstated in both engineering and architectural contexts. A thorough grasp of this concept allows professionals to design better systems that are efficient, reliable, and safe. As technology continues to evolve, so too will the methods and materials used to create optimal bearing surfaces, paving the way for more innovative and sustainable engineering practices.

在工程和制造领域，术语承载面指的是两个表面之间的接触区域，通常是一个表面支撑另一个表面的地方。理解承载面的概念对于设计需要运动或承载能力的机械组件至关重要。例如，在旋转轴中，承载面是轴与轴承接触的地方，允许平滑旋转，同时最小化摩擦和磨损。承载面的质量和特性极大地影响机械系统的性能和寿命。材料选择、表面光洁度和润滑等因素在决定承载面的有效功能方面起着重要作用。精心设计的承载面可以减少摩擦，防止过热，提高机器的整体效率。此外，不同的应用需要特定类型的承载面。例如，在汽车工程中，发动机曲轴的承载面必须承受高温和高压，同时保持其形状和完整性。工程师通常使用先进的材料和涂层来提高这些表面的耐用性，确保它们能够应对操作过程中施加的压力。除了传统的机械应用外，承载面的概念在土木工程和建筑学中也很相关。例如，在建造桥梁时，支撑梁的承载面对均匀分配负载至关重要。如果承载面设计不当，可能导致结构故障，从而造成昂贵的维修或甚至灾难性的事故。此外，技术的进步导致了专门的承载面的发展，这些表面可以适应各种条件。自润滑轴承和复合材料等创新出现，为工程师提供了更多选项，以增强性能。这些现代解决方案旨在延长承载面的使用寿命，同时降低维护成本。总之，理解承载面的重要性在工程和建筑环境中不可低估。全面掌握这一概念使专业人士能够设计出更高效、可靠和安全的系统。随着技术的不断发展，用于创建最佳承载面的方法和材料也将不断演变，为更具创新性和可持续性的工程实践铺平道路。