cutting angle

简明释义

切锨

英英释义

例句

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

厨师调整了切割角度以获得更薄的蔬菜片。

2.Adjusting the cutting angle on the saw improved the quality of the cuts.

调整锯子的切割角度提高了切割质量。

3.When sharpening a knife, the cutting angle can significantly affect its sharpness.

在磨刀时，切割角度会显著影响刀的锋利度。

4.In woodworking, the cutting angle is crucial for making precise joints.

在木工中，切割角度对制作精确接头至关重要。

5.The landscaper used a specific cutting angle to create a clean edge on the hedge.

园艺师使用特定的切割角度来修剪树篱的整齐边缘。

作文

In the world of manufacturing and machining, precision is of utmost importance. One critical aspect that influences the quality of a cut is the cutting angle. The cutting angle refers to the angle formed between the cutting edge of a tool and the surface of the material being cut. This angle plays a vital role in determining how effectively a tool can remove material and how smoothly it can glide through the workpiece.When selecting a cutting angle, engineers must consider several factors, including the type of material being machined, the desired finish, and the specific operation being performed. For instance, a sharp cutting angle is often preferred for softer materials, as it allows for easier penetration and less resistance during the cutting process. Conversely, harder materials may require a more obtuse cutting angle to prevent tool wear and ensure durability.The impact of the cutting angle extends beyond just the immediate cutting action; it also affects the overall efficiency of the machining process. A well-chosen cutting angle can lead to reduced cutting forces, lower power consumption, and improved tool life. On the other hand, an improper cutting angle can result in excessive heat generation, increased friction, and premature tool failure.Moreover, the cutting angle can influence the surface finish of the machined part. Different angles can produce varying levels of surface roughness, which is crucial in applications where aesthetics and functionality are paramount. For example, a finer cutting angle might be necessary for components that require a high degree of precision, whereas a rougher finish may be acceptable for less critical applications.In addition to these technical considerations, the cutting angle can also have economic implications. By optimizing the cutting angle, manufacturers can reduce production costs, minimize waste, and enhance overall productivity. This optimization process often requires extensive testing and analysis, as the ideal cutting angle can vary significantly depending on the specific conditions of each machining operation.Furthermore, advancements in technology have led to the development of sophisticated tools that allow for adjustable cutting angles. These tools enable machinists to modify the angle on-the-fly, adapting to changes in material properties or production requirements without needing to stop the machining process. This flexibility can significantly enhance efficiency and reduce downtime.In conclusion, the cutting angle is a fundamental parameter in the machining industry that directly affects the performance, efficiency, and quality of manufacturing processes. Understanding and mastering the concept of the cutting angle is essential for engineers and machinists alike. By carefully selecting and optimizing this angle, they can achieve superior results, ensuring that their products meet the highest standards of quality and performance. As the industry continues to evolve, the importance of the cutting angle will only grow, making it a key focus area for ongoing research and development in the field of machining.

在制造和机械加工的世界中，精度至关重要。影响切割质量的一个关键因素是切削角度。切削角度是指工具的切削刃与被切削材料表面之间形成的角度。这个角度在决定工具去除材料的有效性以及其如何顺利地穿过工件方面起着至关重要的作用。在选择切削角度时，工程师必须考虑多个因素，包括被加工材料的类型、所需的表面处理以及具体的操作。例如，对于较软的材料，通常更喜欢使用较尖锐的切削角度，因为它可以更容易地穿透并减少切削过程中的阻力。相反，对于较硬的材料，可能需要更钝的切削角度以防止工具磨损并确保耐用性。切削角度的影响不仅仅局限于直接的切割动作；它还会影响整个加工过程的效率。合理选择的切削角度可以降低切削力，减少能耗，并提高工具寿命。另一方面，不当的切削角度可能导致过多的热量产生、增加摩擦和工具的提前失效。此外，切削角度还会影响加工件的表面光洁度。不同的角度可以产生不同程度的表面粗糙度，这在要求美观和功能性的应用中至关重要。例如，对于需要高精度的组件，可能需要更细的切削角度，而对于不那么关键的应用，较粗糙的表面处理可能是可以接受的。除了这些技术考虑外，切削角度还可能具有经济意义。通过优化切削角度，制造商可以降低生产成本，最小化浪费，并提高整体生产率。这一优化过程通常需要大量的测试和分析，因为理想的切削角度可能因每个加工操作的具体条件而显著不同。此外，技术的进步导致了可调切削角度的复杂工具的发展。这些工具使得机械师能够实时调整角度，适应材料特性或生产要求的变化，而无需停止加工过程。这种灵活性可以显著提高效率并减少停机时间。总之，切削角度是机械加工行业中的一个基本参数，直接影响制造过程的性能、效率和质量。理解和掌握切削角度的概念对工程师和机械师来说都是必不可少的。通过仔细选择和优化这个角度，他们可以实现卓越的成果，确保他们的产品达到最高的质量和性能标准。随着行业的不断发展，切削角度的重要性只会增加，这使其成为机械加工领域持续研究和发展的关键关注点。