plunge milling

简明释义

切入式铣削

英英释义

例句

1.For this project, plunge milling 垂直铣削 is the best method to remove large amounts of material quickly.

对于这个项目，plunge milling 垂直铣削是快速去除大量材料的最佳方法。

2.The CNC machine is programmed for plunge milling 垂直铣削 to ensure precision in cutting.

CNC机器被编程为plunge milling 垂直铣削以确保切割的精确性。

3.In the manufacturing process, we often use plunge milling 垂直铣削 to create deep slots in metal components.

在制造过程中，我们经常使用plunge milling 垂直铣削来在金属部件中创建深槽。

4.Using plunge milling 垂直铣削, we can achieve a smooth finish on the workpiece.

通过使用plunge milling 垂直铣削，我们可以在工件上获得光滑的表面。

5.The engineer recommended plunge milling 垂直铣削 for creating intricate designs in hard materials.

工程师建议使用plunge milling 垂直铣削在硬材料中创建复杂的设计。

作文

In the world of machining, various techniques are employed to achieve precision and efficiency in manufacturing. One such technique is plunge milling, which is particularly useful for creating deep cavities or pockets in a material. This method involves the use of a milling cutter that moves vertically into the workpiece, allowing for rapid removal of material. Unlike traditional milling, where the cutter moves horizontally across the surface, plunge milling focuses on downward motion, making it ideal for specific applications such as mold making and die cutting.The process begins with the selection of an appropriate milling tool. The cutter must be designed to withstand the forces exerted during the plunging action. Typically, end mills with a strong cutting edge are used for this purpose. Once the tool is selected, the operator sets the machine to the desired depth of cut and feeds rate. This setup is crucial, as improper settings can lead to tool breakage or poor surface finish.One of the significant advantages of plunge milling is its ability to create complex shapes and features with high accuracy. The vertical cutting action allows for the creation of intricate designs that may be difficult to achieve with other milling techniques. For instance, in industries such as aerospace and automotive, where precision is paramount, plunge milling offers a reliable solution for producing components that meet stringent specifications.Moreover, plunge milling is often faster than conventional milling methods when it comes to removing large volumes of material. The direct downward force applied by the cutter enables quicker penetration into the workpiece, thus reducing cycle times. This efficiency is particularly beneficial in high-volume production environments, where time is money.However, it is essential to consider the type of material being machined when employing plunge milling. Harder materials may require slower feed rates and more robust tooling to prevent excessive wear or damage. Additionally, coolant may be necessary to dissipate heat generated during the cutting process, ensuring the longevity of both the tool and the workpiece.In conclusion, plunge milling is a valuable technique in the machining industry, offering unique advantages for specific applications. Its ability to create deep cavities and complex shapes, combined with its efficiency in material removal, makes it a preferred choice for many manufacturers. As technology continues to advance, the methods and tools associated with plunge milling will likely evolve, leading to even greater precision and productivity in manufacturing processes. Understanding this technique and its applications can significantly enhance a machinist's skill set, ultimately contributing to better quality products and improved operational efficiency.

深孔铣削是一种在机械加工领域中使用的技术，特别适用于在材料中创建深腔或凹槽。该方法涉及使用一个铣刀，它垂直向工件移动，从而快速去除材料。与传统的铣削不同，后者是铣刀在表面上水平移动，深孔铣削则专注于向下运动，使其非常适合特定应用，如模具制造和冲压。该过程开始于选择合适的铣刀。铣刀必须设计成能够承受在插入动作中施加的力量。通常，使用具有强切削边缘的端铣刀。选择好工具后，操作员设置机器到所需的切割深度和进给速度。这个设置至关重要，因为不当的设置可能导致工具断裂或表面质量差。深孔铣削的一个显著优点是它能够高精度地创建复杂的形状和特征。垂直切削动作允许创建复杂的设计，这在其他铣削技术中可能难以实现。例如，在航空航天和汽车等行业中，精度至关重要，深孔铣削提供了一个可靠的解决方案，用于生产满足严格规格的组件。此外，在去除大量材料时，深孔铣削通常比传统铣削方法更快。切刀施加的直接向下力量使得更快地穿透工件，从而减少了周期时间。这种效率在高产量生产环境中特别有利，因为时间就是金钱。然而，在采用深孔铣削时，考虑被加工材料的类型是至关重要的。较硬的材料可能需要较慢的进给速度和更坚固的工具，以防止过度磨损或损坏。此外，切削过程中产生的热量可能需要冷却液来散热，以确保工具和工件的耐用性。总之，深孔铣削是机械加工行业中的一种宝贵技术，为特定应用提供独特的优势。它在去除材料方面的效率以及创造深腔和复杂形状的能力，使其成为许多制造商的首选。随着技术的不断进步，与深孔铣削相关的方法和工具可能会不断演变，从而在制造过程中实现更高的精度和生产力。理解这一技术及其应用可以显著增强机修工的技能，最终有助于提高产品质量和改善运营效率。