chamfering

简明释义

英[ˈtʃæmfərɪŋ]美[ˈtʃæmfərɪŋ]

n. [机]倒角；去角斜切

v. 切斜边（chamfer 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.The automatic chamfering system using an industrial robot is developed.

该自动倒角系统采用了一个已开发成熟的工业机器人。

2.The machine performs a course chamfering after glass cutting. It is of rational structure and simple operation.

该机是原片玻璃切割后，进行粗磨倒棱的设备。此机装有收尘过滤装置结构合理，操作简单。

3.This paper describes the tooth forms of an external toothing and chamfering gear shaping cutter and chamfering gear shaper cutters designed by old routine.

描述了外啮合修缘插齿刀和修缘齿轮的齿形，分析了按常规设计修缘插齿刀存在的问题。

4.An effectual measuring method applied to inspect the chamfering depth of a small hole in production line is introduced.

介绍了一种高效测量方法，适用于小孔倒角深度的工序间快速检测。

5.A clamping surface of the completion of three milling, drilling, tapping, chamfering and other multi-precision machining.

一次装夹完成多面铣削、钻孔、攻丝(选配)、倒角等多功能精密加工。

6.Besides, it makes no influence to a chamfering condition.

其外，它不做影响对一个斜切的情况。

7.In metalworking, chamfering is essential for preventing sharp edges that can cause injuries.

在金属加工中，倒角对于防止可能导致伤害的锋利边缘至关重要。

8.The carpenter spent hours on the edges, focusing on chamfering to ensure a smooth finish.

木匠花了几个小时在边缘上，专注于倒角以确保光滑的表面。

9.The designer recommended chamfering the corners of the table to enhance its aesthetics.

设计师建议对桌子的角落进行倒角以提升其美观性。

10.The engineer specified chamfering in the technical drawings to avoid stress concentrations.

工程师在技术图纸中指定了倒角以避免应力集中。

11.During the assembly process, chamfering the parts allowed for easier fitting.

在组装过程中，倒角零件使得更容易安装。

作文

In the field of engineering and manufacturing, precision and attention to detail are paramount. One technique that plays a significant role in achieving these goals is chamfering. 倒角 is the process of removing the sharp edges or corners from an object, typically at a 45-degree angle. This practice not only enhances the aesthetic appeal of a product but also serves functional purposes, such as reducing the risk of injury and improving the assembly of parts. The concept of chamfering can be traced back to ancient times when craftsmen sought to create smoother and safer edges on their tools and weapons. Today, 倒角 is widely used in various industries, including woodworking, metalworking, and plastic fabrication. For instance, in woodworking, a simple chamfer can transform a basic table into a more refined piece of furniture. The angled edges catch the light differently, creating a visual interest that draws the eye. In metalworking, chamfering is essential for ensuring that components fit together correctly. When two metal parts are joined, having a chamfered edge allows for easier alignment and welding. Without this preparation, the edges may not meet properly, leading to weak joints and potential failures. Furthermore, 倒角 reduces stress concentrations at the edges of the parts, which can prolong the lifespan of the components under load. In addition to its practical applications, chamfering also plays a crucial role in safety. Sharp edges can pose a significant hazard in both industrial and everyday environments. By applying a 倒角 to sharp corners, manufacturers can minimize the risk of cuts and injuries to users. This is particularly important in consumer products, where user safety is a top priority. The process of chamfering can be accomplished through various methods, including manual hand tools, CNC machines, and specialized chamfering tools. Each method has its advantages and is chosen based on the material being worked with and the desired finish. For example, CNC machines offer high precision and can produce consistent results across large production runs, while hand tools allow for more intricate designs and custom shapes. Moreover, chamfering can be applied to both internal and external edges of a workpiece. Internal 倒角 is often used in holes to facilitate the insertion of screws or bolts, while external 倒角 enhances the overall appearance of the item. This versatility makes chamfering a valuable technique in many manufacturing processes. As technology continues to evolve, the methods and tools used for chamfering are becoming increasingly sophisticated. Innovations such as laser cutting and automated machinery are allowing for even more precise and efficient chamfering processes. These advancements not only improve productivity but also contribute to the overall quality of the finished products. In conclusion, chamfering is an essential technique in various fields of manufacturing and design. Its ability to enhance aesthetics, improve safety, and ensure proper assembly makes it a critical consideration for engineers and designers alike. Understanding the importance and applications of 倒角 can lead to better product development and higher standards of quality in the industry.

在工程和制造领域，精确性和对细节的关注至关重要。一个在实现这些目标中发挥重要作用的技术是倒角。Chamfering是去除物体的尖锐边缘或角落的过程，通常以45度角进行。这一实践不仅提升了产品的美观性，还具有功能性目的，例如降低受伤风险和改善部件的组装。倒角的概念可以追溯到古代，当时工匠们试图在工具和武器上创造更光滑、更安全的边缘。如今，倒角在木工、金属加工和塑料制造等多个行业得到广泛应用。例如，在木工中，简单的倒角可以将一张普通的桌子转变为更精致的家具。斜角边缘以不同方式捕捉光线，创造出吸引眼球的视觉效果。在金属加工中，倒角对于确保组件正确配合至关重要。当两个金属部件连接时，具有倒角边缘可以更容易地对齐和焊接。如果没有这种准备，边缘可能无法正确接触，从而导致接头弱且可能发生故障。此外，倒角还减少了部件边缘的应力集中，这可以延长在负载下组件的使用寿命。除了其实际应用外，倒角在安全性方面也扮演着重要角色。尖锐的边缘在工业和日常环境中可能构成重大危险。通过对尖锐的角落进行倒角，制造商可以最小化对用户的割伤和伤害风险。这在消费品中尤为重要，因为用户安全是首要任务。倒角的过程可以通过各种方法实现，包括手动工具、数控机床和专用倒角工具。每种方法都有其优点，并根据所加工材料和所需的表面处理进行选择。例如，数控机床提供高精度，并能够在大规模生产中产生一致的结果，而手动工具则允许更复杂的设计和定制形状。此外，倒角可以应用于工件的内部和外部边缘。内部倒角通常用于孔中，以便于螺钉或螺栓的插入，而外部倒角则增强物品的整体外观。这种多功能性使得倒角在许多制造过程中成为一种有价值的技术。随着技术的不断发展，用于倒角的方法和工具变得越来越复杂。激光切割和自动化机械等创新使得更加精确和高效的倒角过程成为可能。这些进步不仅提高了生产力，还提高了成品的整体质量。总之，倒角是制造和设计各个领域的重要技术。它提高美观、改善安全性和确保正确组装的能力，使其成为工程师和设计师必须考虑的关键因素。理解倒角的重要性及其应用可以促进更好的产品开发和更高的行业质量标准。