cutting depth

简明释义

切项度

英英释义

例句

1.The recommended cutting depth (切削深度) for this type of wood is about 5 mm.

这种类型木材的推荐切削深度（切削深度）约为5毫米。

2.The machinist adjusted the tool to achieve the desired cutting depth (切削深度) for the material.

机械师调整了工具，以达到所需的切削深度（切削深度）以适应材料。

3.Reducing the cutting depth (切削深度) can help prevent tool wear.

减少切削深度（切削深度）可以帮助防止工具磨损。

4.He increased the cutting depth (切削深度) to enhance the efficiency of the operation.

他增加了切削深度（切削深度）以提高操作的效率。

5.For optimal performance, it's important to monitor the cutting depth (切削深度) during the milling process.

为了获得最佳性能，在铣削过程中监测切削深度（切削深度）是很重要的。

作文

In the field of machining and manufacturing, understanding various parameters is crucial for achieving optimal results. One such important parameter is cutting depth, which refers to the thickness of the material that is removed in a single pass of the cutting tool. This concept plays a significant role in determining the efficiency and quality of the machining process. The cutting depth can greatly influence the overall performance of a machine tool and the characteristics of the finished product.When setting up a machining operation, engineers must carefully consider the cutting depth. A deeper cut may seem advantageous as it allows for the removal of more material in one go, potentially reducing the number of passes required. However, this approach can lead to increased tool wear, higher energy consumption, and even potential damage to the workpiece if not managed properly. Therefore, finding the right balance is essential.Moreover, the cutting depth affects the surface finish of the machined part. A shallow cutting depth often leads to a smoother surface due to the finer control over the cutting action. This is particularly important in industries where precision and aesthetics are paramount, such as aerospace and automotive manufacturing. In these cases, engineers might opt for a shallower cutting depth to achieve the desired surface quality, even if it means taking more passes to complete the machining process.Another aspect to consider is the material being machined. Different materials react differently to varying cutting depths. For instance, harder materials may require shallower cuts to avoid damaging the tool or the workpiece. Conversely, softer materials might allow for deeper cuts without adverse effects. Thus, understanding the material properties is vital for determining the appropriate cutting depth for each specific machining task.Additionally, the type of cutting tool used also influences the optimal cutting depth. Tools designed for heavy-duty machining may be able to handle deeper cuts more effectively than those meant for precision work. Therefore, selecting the right tool in conjunction with the cutting depth is essential for maximizing productivity and minimizing costs.In summary, the concept of cutting depth is a fundamental aspect of machining that impacts efficiency, surface quality, and tool longevity. Engineers and machinists must carefully evaluate the cutting depth in relation to the material, tool type, and desired outcomes. By doing so, they can optimize their processes, reduce waste, and ensure high-quality production. Understanding the intricacies of cutting depth is not just a technical necessity but a critical component of successful manufacturing operations.

在机械加工和制造领域，理解各种参数对于实现最佳效果至关重要。其中一个重要参数是切削深度，它指的是在一次切削工具的通过中去除的材料厚度。这个概念在确定机械加工过程的效率和质量方面起着重要作用。切削深度可以极大地影响机床的整体性能和成品的特性。在设置加工操作时，工程师必须仔细考虑切削深度。较深的切削看似有利，因为它允许一次去除更多的材料，从而可能减少所需的通过次数。然而，这种方法可能会导致工具磨损增加、能耗更高，甚至在管理不当的情况下可能对工件造成损坏。因此，找到合适的平衡至关重要。此外，切削深度还会影响加工零件的表面光洁度。较浅的切削深度通常会由于对切削动作的更精细控制而导致更光滑的表面。这在航空航天和汽车制造等对精度和美观要求极高的行业中尤为重要。在这些情况下，工程师可能会选择较浅的切削深度以达到所需的表面质量，即使这意味着需要更多的通过次数来完成加工过程。另一个需要考虑的方面是被加工材料。不同材料对不同的切削深度反应不同。例如，较硬的材料可能需要较浅的切削以避免损坏工具或工件。相反，较软的材料可能允许更深的切削而不会产生不良影响。因此，了解材料特性对于确定每个特定加工任务的适当切削深度至关重要。此外，所使用的切削工具类型也会影响最佳的切削深度。设计用于重型加工的工具可能能够更有效地处理更深的切削，而那些用于精密工作的工具则可能不行。因此，在选择合适的工具时，与切削深度相结合是最大化生产力和最小化成本的关键。总之，切削深度的概念是机械加工的一个基本方面，影响着效率、表面质量和工具寿命。工程师和技工必须仔细评估切削深度与材料、工具类型和期望结果之间的关系。通过这样做，他们可以优化流程、减少浪费，并确保高质量的生产。理解切削深度的复杂性不仅是技术上的必要性，也是成功制造操作的关键组成部分。