maximum machining length

简明释义

最大加工长度

英英释义

例句

1.The technician adjusted the settings to accommodate the maximum machining length of the workpiece.

技术人员调整了设置以适应工件的最大加工长度。

2.Before starting the project, we need to verify the maximum machining length specified in the machine's manual.

在开始项目之前，我们需要确认机器手册中规定的最大加工长度。

3.The CNC machine has a maximum machining length of 2000 mm, allowing for the production of long components.

这台CNC机床的最大加工长度为2000毫米，可以生产长型部件。

4.For this part, the maximum machining length is critical to ensure proper fit in the assembly.

对于这个部件，最大加工长度至关重要，以确保在装配中的合适配合。

5.When designing the component, consider the maximum machining length to avoid any manufacturing issues.

在设计组件时，请考虑最大加工长度以避免任何制造问题。

作文

In the field of manufacturing and machining, precision is key to producing high-quality components that meet specific requirements. One important aspect of this process is understanding the concept of maximum machining length, which refers to the longest dimension that a workpiece can be machined in a single setup without the need for repositioning. This measurement is critical for engineers and machinists because it directly affects the efficiency and accuracy of the machining process. When designing a part, knowing the maximum machining length is essential for selecting the right tools and machines, as well as for planning the workflow. For instance, consider a scenario where a company needs to produce a series of metal brackets. If the maximum machining length of the available milling machine is 1000 mm, any bracket longer than this dimension would require either a different machine or multiple setups, which could lead to inconsistencies and increased production time. Therefore, understanding the maximum machining length allows manufacturers to optimize their operations and ensure that they can produce parts efficiently.Moreover, the maximum machining length can vary significantly between different types of machines. For example, CNC (Computer Numerical Control) machines often have larger maximum machining lengths compared to traditional manual lathes or mills. This capability enables CNC machines to handle larger workpieces, making them ideal for industries that require the production of big components, such as aerospace or automotive sectors. In addition to the physical limitations of the machines, the maximum machining length also plays a role in the design phase of product development. Engineers must take this measurement into account when creating CAD (Computer-Aided Design) models to ensure that the designs are feasible for production. If a design exceeds the maximum machining length, adjustments must be made, which can lead to delays and increased costs.Furthermore, the importance of the maximum machining length extends beyond individual components. It impacts the overall layout of the manufacturing facility and the selection of equipment. Companies must strategically plan their machining capabilities based on the maximum machining length to maximize space and resources. This planning includes considerations for material handling, tool storage, and workflow optimization.In conclusion, the concept of maximum machining length is a fundamental aspect of machining and manufacturing processes. It influences everything from the choice of machinery to the design of parts and the efficiency of production workflows. By fully understanding and utilizing the maximum machining length, manufacturers can enhance their productivity, reduce costs, and improve the quality of their products. As technology advances and new machining methods are developed, staying informed about these parameters will be crucial for success in the competitive manufacturing landscape.

在制造和加工领域，精确性是生产符合特定要求的高质量部件的关键。这个过程中的一个重要方面是理解“最大加工长度”的概念，它指的是在不需要重新定位的情况下，可以在单一设置中加工的工件的最长尺寸。这个测量对于工程师和机械师至关重要，因为它直接影响到加工过程的效率和准确性。在设计零件时，了解“最大加工长度”对于选择合适的工具和机器以及规划工作流程至关重要。例如，考虑一个公司需要生产一系列金属支架的场景。如果可用的铣床的“最大加工长度”为1000毫米，则任何超过此尺寸的支架都将需要不同的机器或多个设置，这可能导致不一致性和增加的生产时间。因此，了解“最大加工长度”可以让制造商优化操作，确保能够高效地生产零件。此外，不同类型的机器之间的“最大加工长度”可能会有显著差异。例如，CNC（计算机数控）机床通常具有比传统手动车床或铣床更大的“最大加工长度”。这种能力使得CNC机床能够处理较大的工件，使其成为航空航天或汽车行业等需要生产大型组件的行业的理想选择。除了机器的物理限制外，“最大加工长度”在产品开发的设计阶段也发挥着重要作用。工程师在创建CAD（计算机辅助设计）模型时必须考虑这一测量，以确保设计在生产上是可行的。如果设计超出了“最大加工长度”，则必须进行调整，这可能导致延迟和成本增加。此外，“最大加工长度”的重要性不仅限于单个组件。它影响制造设施的整体布局和设备的选择。公司必须根据“最大加工长度”战略性地规划其加工能力，以最大化空间和资源。这种规划包括对材料处理、工具存储和工作流程优化的考虑。总之，“最大加工长度”的概念是加工和制造过程的基本方面。它影响从机器选择到零件设计以及生产工作流程的效率的一切。通过充分理解和利用“最大加工长度”，制造商可以提高生产力、降低成本并改善产品质量。随着技术的进步和新加工方法的发展，了解这些参数对于在竞争激烈的制造环境中取得成功至关重要。