cutting angle

简明释义

切削角

英英释义

例句

1.In woodworking, the cutting angle is crucial for joining two pieces together seamlessly.

在木工中，切割角度对于将两块木材无缝连接至关重要。

2.Adjusting the cutting angle on the lawn mower can help achieve a more even cut.

调整草坪修剪机的切割角度可以帮助实现更均匀的修剪。

3.The chef adjusted the cutting angle to achieve thinner slices of the vegetables.

厨师调整了切割角度以获得更薄的蔬菜片。

4.The designer specified a precise cutting angle for the glass to ensure it fits perfectly.

设计师指定了一个精确的切割角度以确保玻璃完美贴合。

5.When using a saw, the correct cutting angle can prevent damage to the material.

在使用锯子时，正确的切割角度可以防止对材料的损害。

作文

In the world of manufacturing and machining, precision is key. One of the critical factors that influence the efficiency and effectiveness of cutting tools is the cutting angle. The cutting angle refers to the angle at which the cutting edge of a tool engages with the material being machined. This angle plays a significant role in determining the quality of the cut, the life of the tool, and the overall productivity of the machining process.When considering the cutting angle, it is essential to understand its impact on different materials. For instance, harder materials may require a sharper cutting angle to penetrate effectively, while softer materials might benefit from a more obtuse angle to prevent excessive wear on the tool. This relationship between material properties and cutting angle is crucial for engineers and machinists alike, as it directly affects the performance of the machining operation.Moreover, the selection of the appropriate cutting angle can also influence the surface finish of the machined part. A well-chosen cutting angle allows for smoother cuts, reducing the need for extensive finishing processes. This not only saves time but also minimizes the cost associated with additional machining operations. Therefore, understanding the dynamics of the cutting angle can lead to significant improvements in both quality and efficiency.In addition to the material and surface finish considerations, the cutting angle also affects the forces acting on the tool during the cutting process. A sharper cutting angle typically results in lower cutting forces, which can prolong tool life and reduce the risk of tool failure. Conversely, an inappropriate cutting angle can lead to increased wear and tear on the tool, resulting in frequent replacements and downtime in production.Furthermore, the cutting angle is not a one-size-fits-all parameter; it must be tailored to specific machining conditions, including the type of machine, the speed of operation, and the cooling methods employed. For example, high-speed machining often requires careful consideration of the cutting angle to manage heat generation and maintain tool integrity. In contrast, slower machining speeds may allow for more flexibility in cutting angle selection without compromising performance.In conclusion, the cutting angle is a fundamental aspect of machining that cannot be overlooked. Its implications extend beyond merely making a cut; it influences tool life, surface finish, and overall operational efficiency. As technology advances and new materials emerge, understanding and optimizing the cutting angle will remain a vital area of focus for engineers and manufacturers seeking to enhance their processes and products. By investing time in studying and applying the principles of the cutting angle, businesses can achieve greater success in their machining endeavors, leading to improved quality and profitability in the competitive market.

在制造和加工的世界中，精确性是关键。影响切削工具效率和效果的一个关键因素是切削角度。切削角度指的是切削工具的切削刃与被加工材料接触时所形成的角度。这个角度在决定切割质量、工具寿命和整个加工过程的生产率方面起着重要作用。考虑到切削角度时，了解其对不同材料的影响至关重要。例如，较硬的材料可能需要更锋利的切削角度以有效穿透，而较软的材料则可能受益于更钝的角度，以防止工具过度磨损。材料特性与切削角度之间的这种关系对于工程师和机械师来说至关重要，因为它直接影响加工操作的性能。此外，选择合适的切削角度还会影响加工零件的表面光洁度。合理选择的切削角度可以实现更平滑的切割，减少对广泛精加工过程的需求。这不仅节省了时间，还最小化了与额外加工操作相关的成本。因此，理解切削角度的动态关系可以显著提高质量和效率。除了材料和表面光洁度的考虑外，切削角度还会影响切削过程中作用于工具的力。较尖锐的切削角度通常会导致较低的切削力，从而延长工具寿命并减少工具失效的风险。相反，不合适的切削角度可能导致工具的磨损加剧，导致频繁更换和生产停机。此外，切削角度并不是一种通用参数；它必须根据特定的加工条件进行调整，包括机器类型、操作速度和采用的冷却方法。例如，高速加工往往需要仔细考虑切削角度以管理热量产生并保持工具完整性。相比之下，较慢的加工速度可能允许在不妨碍性能的情况下对切削角度选择有更多灵活性。总之，切削角度是加工中的一个基本方面，不能被忽视。它的影响不仅仅局限于切割，它还影响工具寿命、表面光洁度和整体操作效率。随着技术的进步和新材料的出现，理解和优化切削角度将始终是工程师和制造商关注的一个重要领域，他们寻求提升其工艺和产品。通过花时间研究和应用切削角度的原理，企业可以在竞争激烈的市场中，在加工工作中取得更大的成功，从而提高质量和盈利能力。