angle of cut-off

简明释义

截止角

英英释义

例句

1.During the metal fabrication process, the angle of cut-off must be measured accurately.

在金属加工过程中，必须准确测量切割角度。

2.The architect specified the angle of cut-off for the roof design to improve drainage.

建筑师为屋顶设计指定了切割角度以改善排水。

3.In woodworking, the angle of cut-off is crucial for achieving precise joints.

在木工中，切割角度对于实现精确的接缝至关重要。

4.The angle of cut-off determines how much material is removed during machining.

切割角度决定了在加工过程中去除多少材料。

5.The engineer calculated the angle of cut-off to ensure the beam would not exceed safety limits.

工程师计算了切割角度以确保梁不会超过安全限制。

作文

In the field of geometry and engineering, the concept of the angle of cut-off plays a crucial role in determining the efficiency and effectiveness of various designs. The angle of cut-off refers to the specific angle at which a material is cut or shaped, particularly in processes such as machining, woodworking, or metalworking. Understanding this angle is essential for achieving precision and ensuring that the final product meets the desired specifications. The significance of the angle of cut-off can be observed in different applications. For instance, in woodworking, when making a joint, the angle of cut-off must be calculated accurately to ensure that the pieces fit together seamlessly. If the angle is off, it can lead to gaps, misalignment, and ultimately, a structurally unsound connection. Similarly, in metalworking, the angle of cut-off affects how well a tool interacts with the material being cut. A correct angle allows for smoother cuts and reduces wear on the cutting tools, leading to better performance and longevity.Moreover, the angle of cut-off is not only about the physical act of cutting; it also has implications for safety. In construction and manufacturing environments, workers need to be aware of the angle of cut-off to minimize the risk of accidents. A poorly executed cut can lead to flying debris or tools slipping, posing hazards to those nearby. Therefore, training and adherence to safety protocols regarding the angle of cut-off are paramount in these industries.In addition to practical applications, understanding the angle of cut-off can enhance one's appreciation of design aesthetics. For example, in architecture, the angles at which materials meet can significantly influence the visual appeal of a structure. Designers often manipulate the angle of cut-off to create unique shapes and lines that contribute to the overall beauty of the building. This aspect of design highlights the intersection of mathematics and art, where the angle of cut-off serves as a foundational element in both fields.Furthermore, advancements in technology have introduced new tools and software that allow for precise calculations of the angle of cut-off. Computer-aided design (CAD) programs enable engineers and architects to visualize their projects in three dimensions, making it easier to adjust the angle of cut-off as needed. This technological integration has revolutionized the way professionals approach cutting and shaping materials, leading to more innovative and efficient designs.In conclusion, the angle of cut-off is a vital concept that transcends various disciplines, from engineering to art. Its implications on precision, safety, and aesthetics make it an essential factor in the cutting and shaping processes. As technology continues to evolve, the ability to manipulate and understand the angle of cut-off will undoubtedly remain a key component in the creation of high-quality products and designs. By mastering this concept, individuals in relevant fields can enhance their skills and contribute to more effective and beautiful outcomes in their work.

在几何和工程领域，切割角度的概念在确定各种设计的效率和有效性方面起着至关重要的作用。切割角度是指材料被切割或成型的特定角度，特别是在机械加工、木工或金属加工等过程中。理解这个角度对于实现精确度和确保最终产品符合所需规格至关重要。切割角度的重要性可以在不同的应用中观察到。例如，在木工中，当制作接头时，必须准确计算切割角度以确保各个部分无缝连接。如果角度不正确，可能会导致缝隙、错位，最终导致结构不稳。同样，在金属加工中，切割角度影响工具与被切割材料的相互作用。正确的角度可以实现更平滑的切割，并减少对切割工具的磨损，从而提高性能和使用寿命。此外，切割角度不仅涉及切割的物理行为；它还对安全性有影响。在建筑和制造环境中，工人需要了解切割角度以最小化事故风险。不当的切割可能导致飞散的碎片或工具滑落，对周围人构成危险。因此，关于切割角度的培训和遵守安全规程在这些行业中至关重要。除了实际应用之外，理解切割角度可以增强人们对设计美学的欣赏。例如，在建筑学中，材料相遇的角度可以显著影响结构的视觉吸引力。设计师经常操控切割角度以创造独特的形状和线条，从而为建筑的整体美感做出贡献。这一设计方面突显了数学与艺术的交集，其中切割角度作为两个领域的基础元素。此外，技术的进步引入了新的工具和软件，使得能够精确计算切割角度。计算机辅助设计（CAD）程序使工程师和建筑师能够在三维中可视化他们的项目，更容易根据需要调整切割角度。这种技术整合彻底改变了专业人士处理切割和成型材料的方式，导致更具创新性和高效的设计。总之，切割角度是一个跨越多个学科的重要概念，从工程到艺术。它对精确度、安全性和美学的影响使其成为切割和成型过程中的一个基本因素。随着技术的不断发展，操控和理解切割角度的能力无疑将继续成为创造高质量产品和设计的关键组成部分。通过掌握这一概念，相关领域的个人可以提升他们的技能，为他们的工作带来更有效和美丽的成果。