chamfer

简明释义

英[ˈtʃæmfə(r)]美[ˈtʃæmfər]

v. 削去直角边（或角形）成均匀斜面，斜切

n. 斜削角，倒角

英英释义

单词用法

同义词

反义词

例句

1.Table 1 – Accepted deiation for linear measurement except for chamfer edges.

表1---除倒角外，所有线性尺寸的公差标准。

2.After the part is complete chamfer all corners and relieve all burs.

部分完成后，倒角的各个角落，减轻所有钻。

3.The method of chamfer equalizer-slot in the spool, which used to decrease the tightening force, was wildly used in the practical application.

在阀芯上开均压槽用来减少卡紧力的方法已经在实际中得到了广泛的应用。

4.In addition, tools like floor generator and quad chamfer are really helpful and further speed up the modeling process.

此外，像地板生成器和切角工具十分有用，也进一步加快了建模过程。

5.To create a smooth transition select edges along connection of the wall and the floor and apply Chamfer.

如果你要创建平滑的过渡，你可以沿着墙和地面交界的边，然后进行倒角。

6.In assembly drawings, certain technical structures, such as round, chamfer, and undercut can be omitted.

对零件的工艺结构，如小圆角、倒角、退刀槽等可省略不画。

7.The Chamfering machine is a kind of special machine that mainly used to chamfer the end of pipe & tube.

倒棱机是一种专用机床，主要用于对钢管端部进行平头及倒棱加工处理。

8.Marking chamfer and taper is a routine work in Mechanical drawing.

在机械制图中，通常需要进行大量的倒角和锥度的标注工作。

9.The design included a chamfer to improve the fit of the two parts during assembly.

设计中包含了一个倒角，以改善在组装过程中两个部分的贴合。

10.When designing the metal frame, we decided to include a chamfer to reduce stress concentrations.

在设计金属框架时，我们决定加入一个倒角以减少应力集中。

11.The carpenter added a chamfer to the edges of the table for a smoother finish.

木匠在桌子的边缘添加了一个倒角，以获得更光滑的表面。

12.The architect specified a chamfer on the building's corners to enhance its aesthetic appeal.

建筑师在建筑物的角落指定了一个倒角，以增强其美观性。

13.He used a router to create a decorative chamfer on the edge of the shelf.

他使用路由器在架子的边缘制作了一个装饰性的倒角。

作文

When discussing the intricacies of engineering and design, one often encounters various specialized terms that may not be familiar to everyone. One such term is chamfer, which refers to a beveled edge connecting two surfaces. This technique is widely used in manufacturing and construction, serving both aesthetic and functional purposes. In this essay, I will explore the significance of chamfer in different fields, its applications, and why it is essential for engineers and designers to incorporate it into their work.The concept of chamfer can be traced back to ancient architecture, where builders used it to soften the harsh edges of stone blocks. This not only improved the visual appeal of structures but also made them safer by reducing the risk of injury from sharp corners. In modern times, chamfer is applied in various industries, including woodworking, metalworking, and plastic fabrication. For instance, when creating furniture, artisans often apply a chamfer to the edges of tabletops and cabinets to create a more polished and elegant look.In engineering designs, the application of chamfer is crucial. It helps in avoiding stress concentrations that can lead to material failure. By rounding off sharp edges, engineers can improve the durability of components, especially those subjected to high loads or extreme conditions. For example, in the automotive industry, the use of chamfer on brake rotors enhances performance by ensuring even wear and reducing the likelihood of cracking.Moreover, chamfer plays a significant role in assembly processes. When parts are designed with chamfered edges, they are easier to fit together, which can reduce assembly time and costs. This is particularly important in mass production environments, where efficiency is paramount. The incorporation of chamfer in designs can lead to smoother operations and lower chances of errors during assembly.In addition to its practical applications, chamfer also offers aesthetic benefits. Designers often use chamfer to create visually appealing transitions between surfaces. For instance, in architectural design, a chamfer can add depth and interest to a building's facade. It allows light to reflect differently, enhancing the overall visual experience. Similarly, in product design, a well-executed chamfer can elevate the perceived quality of a product, making it more attractive to consumers.Furthermore, as technology advances, the methods of creating chamfers have evolved. With the advent of computer-aided design (CAD) software, designers can easily incorporate chamfers into their models, allowing for precise control over dimensions and angles. This precision ensures that the final products meet stringent specifications and quality standards.In conclusion, the term chamfer encompasses more than just a technical definition; it represents a fundamental aspect of design and engineering. Its applications span across various industries, providing both functional and aesthetic advantages. Understanding the importance of chamfer is essential for anyone involved in design, manufacturing, or construction. By recognizing its value, professionals can create better products that are not only efficient but also visually appealing. As we continue to innovate and push the boundaries of design, the role of chamfer will undoubtedly remain significant in shaping the future of engineering and architecture.

当谈论工程和设计的复杂性时，人们常常会遇到一些可能并不熟悉的专业术语。其中一个术语是斜角，它指的是连接两个表面的斜切边缘。这种技术在制造和建筑中被广泛使用，既具有美学又具有功能性。在这篇文章中，我将探讨斜角在不同领域的重要性、应用以及为什么工程师和设计师必须将其纳入工作中。斜角的概念可以追溯到古代建筑，建筑工人使用它来软化石块的尖锐边缘。这不仅改善了结构的视觉吸引力，还通过减少尖锐角落造成的伤害风险来提高安全性。在现代，斜角被应用于各种行业，包括木工、金属加工和塑料制造。例如，在制作家具时，工匠通常会对桌面和橱柜的边缘进行斜角处理，以创造更加精致和优雅的外观。在工程设计中，斜角的应用至关重要。它有助于避免材料失效的应力集中。通过圆滑尖锐边缘，工程师可以提高部件的耐用性，特别是那些承受高负荷或极端条件的部件。例如，在汽车工业中，对刹车转子使用斜角可以通过确保均匀磨损和减少开裂的可能性来增强性能。此外，斜角在组装过程中也起着重要作用。当零件设计有斜角边缘时，它们更容易组合在一起，这可以减少组装时间和成本。这在大规模生产环境中尤为重要，因为效率至关重要。在设计中融入斜角可以促进更顺畅的操作，并降低组装过程中的错误几率。除了实用应用外，斜角还提供了美学上的好处。设计师经常使用斜角来创造表面之间视觉上吸引人的过渡。例如，在建筑设计中，斜角可以为建筑外立面增添深度和趣味。它使光线以不同方式反射，增强整体视觉体验。同样，在产品设计中，精心设计的斜角可以提升产品的感知质量，使其对消费者更具吸引力。此外，随着技术的进步，创建斜角的方法也在不断演变。随着计算机辅助设计（CAD）软件的出现，设计师可以轻松地将斜角纳入其模型，从而精确控制尺寸和角度。这种精确性确保最终产品符合严格的规格和质量标准。总之，术语斜角不仅仅包含技术定义；它代表了设计和工程的基本方面。它的应用跨越多个行业，提供功能和美学上的优势。理解斜角的重要性对于任何参与设计、制造或建筑的人来说都是至关重要的。通过认识到它的价值，专业人员可以创造出不仅高效而且视觉上吸引人的更好的产品。随着我们继续创新并推动设计的边界，斜角在塑造工程和建筑的未来中无疑将继续发挥重要作用。