axial clearance

简明释义

轴向间隙;

英英释义

例句

1.The technician adjusted the axial clearance to improve the performance of the motor.

技术人员调整了轴向间隙以提高电机的性能。

2.To minimize wear, it's important to monitor the axial clearance in the assembly.

为了减少磨损，监测组件中的轴向间隙非常重要。

3.During installation, make sure the axial clearance is within the recommended range.

在安装过程中，请确保轴向间隙在推荐范围内。

4.The manufacturer specified an axial clearance to ensure proper function of the bearing.

制造商指定了一个轴向间隙以确保轴承的正常功能。

5.Excessive axial clearance can lead to vibration issues in rotating machinery.

过大的轴向间隙可能导致旋转机械中的振动问题。

作文

Understanding technical terms is crucial for anyone working in engineering or related fields. One such term that often comes up in mechanical engineering is axial clearance. This phrase refers to the space between two components along the axis of rotation, which is essential for ensuring smooth operation and preventing damage. In many machines, especially rotating equipment like shafts and bearings, maintaining proper axial clearance is vital to ensure efficiency and longevity.When engineers design machinery, they must consider various factors, including load, speed, and temperature. These elements can affect the axial clearance, making it necessary to calculate the optimal distance between moving parts. If the axial clearance is too small, there is a risk of components colliding, leading to wear and tear or even catastrophic failure. Conversely, if the clearance is too large, it can result in excessive vibration, noise, and reduced efficiency due to increased play between the parts.For instance, in a typical electric motor, the rotor rotates within a stator. The axial clearance between these two components must be carefully controlled to allow for thermal expansion and operational tolerances. Engineers often use precision measuring tools to monitor this clearance during both the design phase and routine maintenance checks. By ensuring that the axial clearance remains within specified limits, they can significantly enhance the performance and reliability of the motor.In addition to its role in machinery, axial clearance also plays a critical part in automotive applications. For example, in an automobile engine, the crankshaft must have adequate axial clearance to function correctly. Too little clearance can lead to engine seizure, while too much can cause inefficient power transfer and increased fuel consumption. Therefore, automotive engineers must meticulously measure and adjust this clearance during the manufacturing process and regular servicing.Furthermore, understanding axial clearance extends beyond just physical measurements; it encompasses the broader implications of machine design and functionality. Engineers must also consider factors such as lubrication, temperature fluctuations, and material properties when determining the appropriate axial clearance. For example, different materials expand at different rates when heated, which can affect the clearance in operational conditions. Thus, selecting the right materials and designing for variable conditions is essential for maintaining optimal axial clearance.In conclusion, axial clearance is a fundamental concept in engineering that impacts the performance and durability of machines. A thorough understanding of this term helps engineers design more efficient systems and troubleshoot issues effectively. As technology continues to evolve, the importance of precise measurements and adjustments in axial clearance will only grow, underscoring the need for ongoing education and innovation in the field of engineering. By mastering concepts like axial clearance, professionals can contribute to the advancement of technology and the creation of more reliable and efficient machinery.

有效理解和掌握技术术语对于任何从事工程或相关领域的人来说都是至关重要的。一个在机械工程中经常出现的术语是轴向间隙。这个短语指的是沿旋转轴线两个组件之间的空间，这对于确保平稳操作和防止损坏至关重要。在许多机器中，特别是像轴和轴承这样的旋转设备中，保持适当的轴向间隙对确保效率和耐用性至关重要。当工程师设计机械时，他们必须考虑各种因素，包括负载、速度和温度。这些元素会影响轴向间隙，使得计算运动部件之间的最佳距离成为必要。如果轴向间隙过小，就有发生部件碰撞的风险，导致磨损甚至灾难性故障。相反，如果间隙过大，则可能导致过度振动、噪音以及由于部件之间的间隙增加而降低效率。例如，在典型的电动机中，转子在定子内旋转。必须仔细控制这些组件之间的轴向间隙以允许热膨胀和操作公差。工程师通常使用精密测量工具在设计阶段和定期维护检查期间监测这种间隙。通过确保轴向间隙保持在规定的范围内，他们可以显著提高电动机的性能和可靠性。除了在机械中的作用外，轴向间隙在汽车应用中也扮演着关键角色。例如，在汽车发动机中，曲轴必须具有足够的轴向间隙才能正常工作。间隙过小可能导致发动机卡死，而间隙过大则可能导致动力传输效率低下和燃油消耗增加。因此，汽车工程师在制造过程中和定期服务中必须仔细测量和调整这种间隙。此外，理解轴向间隙不仅仅涉及物理测量；它还涵盖了机器设计和功能的更广泛影响。工程师在确定适当的轴向间隙时，还必须考虑润滑、温度波动和材料特性等因素。例如，不同材料在加热时膨胀的速率不同，这可能会影响操作条件下的间隙。因此，选择合适的材料并针对可变条件进行设计对于保持最佳的轴向间隙至关重要。总之，轴向间隙是工程中的一个基本概念，影响着机器的性能和耐用性。全面理解这一术语帮助工程师设计出更高效的系统，并有效地解决问题。随着技术的不断发展，对轴向间隙的精确测量和调整的重要性只会增加，强调了在工程领域持续教育和创新的必要性。通过掌握像轴向间隙这样的概念，专业人士可以为技术进步和更可靠、更高效的机械的创造做出贡献。