feed per revolution

简明释义

每转走刀量

英英释义

例句

1.The operator noted that the feed per revolution was too low, resulting in longer machining times.

操作员注意到每转进给量过低，导致加工时间过长。

2.In CNC programming, setting the correct feed per revolution is crucial for effective machining.

在CNC编程中，设置正确的每转进给量对于有效加工至关重要。

3.A higher feed per revolution can increase productivity but may compromise tool life.

较高的每转进给量可以提高生产率，但可能会影响刀具寿命。

4.The milling machine has a specified feed per revolution of 0.1 mm, which ensures precision in cutting.

这台铣床的每转进给量为0.1毫米，确保切割的精度。

5.To achieve optimal surface finish, adjust the feed per revolution based on the material being machined.

为了获得最佳的表面光洁度，根据加工材料调整每转进给量。

作文

In the world of manufacturing and machining, precision is key to achieving high-quality results. One important concept that engineers and machinists often encounter is feed per revolution. This term refers to the distance a cutting tool advances along the workpiece for each complete turn of the spindle. Understanding feed per revolution is crucial for optimizing machining processes and ensuring that the desired surface finish and dimensional accuracy are achieved.When a cutting tool engages with a material, it removes chips or shavings to create the desired shape. The rate at which this material is removed can significantly impact both the efficiency of the machining process and the quality of the final product. If the feed per revolution is too high, it may lead to excessive wear on the tool, generate heat, and produce a rough surface finish. Conversely, if the feed per revolution is too low, it can result in longer machining times and increased production costs.To determine the optimal feed per revolution, several factors must be considered, including the type of material being machined, the tool geometry, and the machine's capabilities. For instance, harder materials may require a lower feed per revolution to prevent tool damage, while softer materials may allow for a higher feed rate without compromising quality.In addition to material properties, the design of the cutting tool itself plays a significant role in determining the appropriate feed per revolution. Tools with sharper edges can typically handle higher feeds, while those with more blunt edges may need to operate at lower rates. Furthermore, the machine's spindle speed also influences the overall machining process. A careful balance between spindle speed and feed per revolution is necessary to achieve optimal results.Machinists often use various formulas and charts to calculate the ideal feed per revolution based on these parameters. By inputting the spindle speed, the diameter of the tool, and the desired chip load, they can arrive at a suitable feed rate that maximizes productivity while maintaining quality. Additionally, modern CNC machines come equipped with software that can automatically adjust the feed per revolution based on real-time feedback from the machining process, further enhancing efficiency.In conclusion, mastering the concept of feed per revolution is essential for anyone involved in the machining industry. It not only affects the efficiency of the manufacturing process but also plays a critical role in ensuring that the final products meet the necessary specifications. By understanding the factors that influence feed per revolution and utilizing the right tools and techniques, machinists can optimize their operations and deliver high-quality results consistently. As technology continues to advance, the ability to accurately control and adjust feed per revolution will remain a vital skill in the ever-evolving landscape of manufacturing.

在制造和加工的世界中，精确是实现高质量结果的关键。工程师和机械师经常遇到的一个重要概念是每转进给量。这个术语指的是切削工具在工件上每转一圈时前进的距离。理解每转进给量对于优化加工过程、确保获得所需的表面光洁度和尺寸精度至关重要。当切削工具与材料接触时，它会去除切屑或碎片以形成所需的形状。去除材料的速度会显著影响加工过程的效率和最终产品的质量。如果每转进给量过高，可能会导致工具过度磨损、产生热量并产生粗糙的表面光洁度。相反，如果每转进给量过低，则可能导致加工时间延长和生产成本增加。为了确定最佳的每转进给量，必须考虑多个因素，包括被加工材料的类型、工具几何形状和机器的能力。例如，较硬的材料可能需要较低的每转进给量以防止工具损坏，而较软的材料则可能允许在不影响质量的情况下使用更高的进给率。除了材料特性外，切削工具本身的设计在确定适当的每转进给量方面也起着重要作用。锐利的工具通常可以处理更高的进给量，而钝的工具可能需要在较低的速率下操作。此外，机器的主轴速度也影响整体加工过程。主轴速度和每转进给量之间的仔细平衡是实现最佳结果所必需的。机械师通常使用各种公式和图表来计算基于这些参数的理想每转进给量。通过输入主轴速度、工具直径和所需的切屑负荷，他们可以得出适合的进给率，以最大化生产力，同时保持质量。此外，现代数控机床配备了软件，可以根据加工过程中的实时反馈自动调整每转进给量，进一步提高效率。总之，掌握每转进给量的概念对于任何参与加工行业的人来说都是至关重要的。它不仅影响制造过程的效率，还在确保最终产品符合必要规格方面发挥着关键作用。通过了解影响每转进给量的因素，并利用正确的工具和技术，机械师可以优化其操作并始终提供高质量的结果。随着技术的不断进步，准确控制和调整每转进给量的能力将始终是制造业不断演变的关键技能。