center line average
简明释义
平均高度
英英释义
例句
1.To improve the accuracy of the measurements, we need to adjust the center line average in our calculations.
为了提高测量的准确性,我们需要在计算中调整中心线平均值。
2.The engineer calculated the center line average to ensure the structural integrity of the bridge.
工程师计算了中心线平均值以确保桥梁的结构完整性。
3.The center line average is critical in determining the optimal path for the pipeline installation.
在确定管道安装的最佳路径时,中心线平均值至关重要。
4.During the audit, we found discrepancies in the center line average reported by the construction team.
在审计过程中,我们发现施工团队报告的中心线平均值存在差异。
5.In this project, the center line average helps us identify deviations from the original design.
在这个项目中,中心线平均值帮助我们识别与原始设计的偏差。
作文
In the realm of engineering and manufacturing, precision is paramount. One of the key concepts that engineers often encounter is the term center line average, which refers to a method of measuring the average position of a feature in relation to its centerline. This concept is particularly important in fields such as mechanical design, where components must fit together with high accuracy. The center line average helps engineers ensure that parts are manufactured within specified tolerances, which is crucial for the functionality and durability of the final product.The center line average is calculated by taking the sum of measurements taken at various points along a feature and then dividing this sum by the number of measurements. This approach provides a reliable indicator of the feature's true position relative to its intended design. For instance, if a cylindrical rod is designed to have a diameter of 10 mm, the center line average would help determine whether the actual diameter meets this specification across its length. If the average deviates significantly from the target dimension, adjustments can be made during the manufacturing process to rectify any discrepancies.Understanding the center line average also plays a critical role in quality control. During the inspection phase, engineers will often measure multiple points on a component to calculate the center line average. This data is essential for identifying trends or patterns that may indicate potential issues in the manufacturing process. For example, if the center line average of a batch of products consistently falls outside acceptable limits, it may signal that a machine needs recalibration or that there is an issue with the material being used.Moreover, the application of the center line average extends beyond simple measurements. It is also used in statistical process control (SPC) to monitor and control manufacturing processes. By plotting the center line average on control charts, engineers can visually assess whether a process is stable and predictable. This proactive approach allows for timely interventions before defects occur, thus saving time and resources.In addition to its practical applications, the center line average has theoretical implications as well. It is rooted in the principles of coordinate geometry, where understanding the relationship between points and lines is fundamental. Engineers must not only grasp how to calculate the center line average but also appreciate its significance in ensuring that designs are realized accurately in production.In conclusion, the concept of center line average is vital for engineers and manufacturers alike. It serves as a foundational tool for achieving precision in measurements, enhancing quality control, and ensuring that the final products meet design specifications. As technology continues to advance, the importance of mastering concepts like the center line average will only grow, underscoring the need for ongoing education and training in these essential skills. In a world where accuracy is increasingly demanded, the center line average remains a critical element in the success of engineering projects and manufacturing operations.
在工程和制造领域,精度至关重要。工程师常常遇到的一个关键概念是“中心线平均值”,它指的是一种测量特征相对于其中心线平均位置的方法。这个概念在机械设计等领域尤为重要,因为组件必须高精度地组装在一起。“中心线平均值”帮助工程师确保零件在指定公差范围内制造,这对最终产品的功能和耐用性至关重要。“中心线平均值”是通过将沿着特征的多个点的测量值相加,然后将总和除以测量次数来计算的。这种方法提供了特征相对于其设计意图的真实位置的可靠指标。例如,如果一个圆柱形杆设计为直径10毫米,则“中心线平均值”将帮助确定实际直径是否符合该规范。如果平均值明显偏离目标尺寸,则可以在制造过程中进行调整以纠正任何差异。理解“中心线平均值”在质量控制中也起着关键作用。在检验阶段,工程师通常会测量组件上的多个点以计算“中心线平均值”。这些数据对于识别可能表明制造过程潜在问题的趋势或模式至关重要。例如,如果一批产品的“中心线平均值”持续超出可接受的限制,这可能表明某台机器需要重新校准,或者所使用的材料存在问题。此外,“中心线平均值”的应用超出了简单的测量。它还用于统计过程控制(SPC)以监控和控制制造过程。通过在控制图上绘制“中心线平均值”,工程师可以直观评估过程是否稳定和可预测。这种主动的方法允许在缺陷发生之前及时干预,从而节省时间和资源。除了实际应用外,“中心线平均值”也具有理论意义。它根植于坐标几何的原理,理解点与线之间的关系是基础。工程师不仅必须掌握如何计算“中心线平均值”,还要理解其在确保设计在生产中准确实现中的重要性。总之,“中心线平均值”的概念对工程师和制造商来说至关重要。它作为实现测量精度、增强质量控制以及确保最终产品符合设计规范的基础工具。随着技术的不断进步,掌握像“中心线平均值”这样的概念的重要性只会增加,这强调了在这些基本技能中持续教育和培训的必要性。在一个越来越要求准确性的世界中,“中心线平均值”仍然是工程项目和制造操作成功的关键元素。
