transverse feed

简明释义

横进给

英英释义

例句

1.A consistent transverse feed helps maintain the dimensional accuracy of the final product.

稳定的横向进给有助于保持最终产品的尺寸精度。

2.Adjusting the transverse feed speed can improve the surface finish of the part.

调整横向进给速度可以改善零件的表面光洁度。

3.The CNC machine is programmed to execute a transverse feed while drilling holes.

数控机床被编程为在钻孔时执行横向进给。

4.In this milling operation, the transverse feed allows for efficient material removal.

在这次铣削操作中，横向进给使得材料去除更加高效。

5.The machine uses a transverse feed to move the workpiece horizontally during machining.

该机器使用横向进给在加工过程中水平移动工件。

作文

In the world of manufacturing and machining, the term transverse feed refers to the movement of a cutting tool or workpiece in a direction that is perpendicular to the primary axis of motion. This concept plays a crucial role in various machining processes, such as milling and turning, where precision and efficiency are paramount. Understanding the significance of transverse feed can enhance our appreciation for modern manufacturing techniques and their applications.When we consider a milling machine, for instance, the primary motion often involves the rotation of the cutting tool. However, the transverse feed allows the tool to move sideways, effectively enabling it to cut into the material from different angles. This lateral movement is essential for achieving complex shapes and contours that are often required in manufacturing components for industries ranging from automotive to aerospace.The effectiveness of transverse feed is influenced by several factors, including the speed of the feed, the type of material being machined, and the geometry of the cutting tool. A well-calibrated transverse feed can significantly improve the surface finish of the machined part, reduce wear on the cutting tool, and increase overall productivity. For example, when machining softer materials, a faster transverse feed might be employed to maximize efficiency, while harder materials may require a slower feed to ensure precision and prevent tool damage.Moreover, the integration of computer numerical control (CNC) technology has revolutionized the way transverse feed is implemented in machining processes. CNC machines allow for precise control over the feed rates and movements, enabling manufacturers to produce intricate designs with minimal human intervention. This advancement not only enhances the accuracy of the machining process but also allows for greater flexibility in production runs.In addition to its technical implications, transverse feed also has economic consequences. By optimizing the feed rates and movements, manufacturers can reduce cycle times, lower production costs, and increase throughput. This optimization is particularly important in competitive markets where efficiency can make a significant difference in profitability.Furthermore, understanding transverse feed is essential for engineers and machinists who are tasked with designing and operating machinery. Knowledge of how to adjust the feed rates according to the specific requirements of a job can lead to better outcomes and more successful projects. Training programs often emphasize the importance of mastering feed rates, including transverse feed, as part of a comprehensive skill set for those in the manufacturing field.In conclusion, the concept of transverse feed is integral to the machining process, influencing everything from the quality of the finished product to the efficiency of production. As technology continues to evolve, the methods and techniques associated with transverse feed will likely become even more sophisticated, further enhancing the capabilities of manufacturers around the globe. By understanding and mastering this critical aspect of machining, professionals can contribute to the ongoing advancement of the industry and ensure high standards of quality and efficiency in their work.

在制造和加工的世界中，术语transverse feed指的是切削工具或工件沿着与主要运动轴线垂直的方向移动。这一概念在铣削和车削等各种加工过程中发挥着至关重要的作用，其中精度和效率是重中之重。理解transverse feed的重要性可以增强我们对现代制造技术及其应用的欣赏。例如，当我们考虑铣床时，主要运动通常涉及切削工具的旋转。然而，transverse feed使工具能够横向移动，从而有效地使其从不同角度切入材料。这种横向运动对于实现复杂形状和轮廓至关重要，这些形状和轮廓常常是汽车、航空航天等行业所需的部件。transverse feed的有效性受多种因素的影响，包括进给速度、被加工材料的类型以及切削工具的几何形状。经过良好校准的transverse feed可以显著改善加工零件的表面光洁度，减少切削工具的磨损，并提高整体生产率。例如，在加工较软材料时，可能会采用更快的transverse feed以最大化效率，而较硬材料可能需要较慢的进给速度以确保精度并防止工具损坏。此外，计算机数控（CNC）技术的集成彻底改变了在加工过程中实施transverse feed的方式。CNC机器允许对进给速率和运动进行精确控制，使制造商能够以最小的人为干预生产复杂的设计。这一进步不仅提高了加工过程的准确性，还允许生产运行的更大灵活性。除了技术影响外，transverse feed还有经济上的影响。通过优化进给速率和运动，制造商可以减少周期时间，降低生产成本，并增加产量。这种优化在竞争激烈的市场中尤为重要，因为效率在盈利能力上可能产生显著差异。此外，了解transverse feed对工程师和操作者至关重要，他们负责设计和操作机械。掌握根据特定工作要求调整进给速率的知识可以带来更好的结果和更成功的项目。培训计划通常强调掌握进给速率的重要性，包括transverse feed，作为制造领域专业人员全面技能的一部分。总之，transverse feed的概念是加工过程的重要组成部分，影响从成品质量到生产效率的方方面面。随着技术的不断发展，与transverse feed相关的方法和技术可能会变得更加复杂，进一步增强全球制造商的能力。通过理解和掌握这一关键的加工方面，专业人员可以为行业的持续进步做出贡献，并确保他们工作的高标准质量和效率。