chamfers
简明释义
n. [机]倒角,[机]倒棱(chamfer 的复数形式)
v. 使成削角,斜切,斜截(chamfer 的第三人称单数)
英英释义
A chamfer is a symmetrical sloping surface at the edge of a machine part or other object, created to remove sharp edges or corners. | 倒角是机器部件或其他物体边缘的对称倾斜表面,旨在去除锋利的边缘或角落。 |
单词用法
应用倒角 | |
创建倒角 | |
测量倒角 | |
倒角边缘 | |
倒角工具 | |
倒角角度 | |
倒角尺寸 |
同义词
反义词
| 倒角 | The design features fillets at the corners to reduce stress concentration. | 该设计在角落处采用了倒角,以减少应力集中。 | |
| 锐边 | Sharp edges can increase the risk of injury during handling. | 锐边在处理过程中可能增加受伤的风险。 |
例句
1.Clinicians have employed an assortment of bevel designs, chamfers, dentinal and enamel grooves, and choices of resin composite materials and techniques for the reattachment of tooth fragments.
临床医生对牙折裂修复技术进行了适当的分类,包括斜面设计、削尖式肩台、牙本质和釉质沟、复合树脂材料的选择以及牙碎片再附着过程的技术细节。
2.Tolerances, gaps, surfaces, installation chamfers, length of bearing surface, length of stroke, frequency, speed, etc.
间隙,表面,安装倒角,表面承受的长度,行程的长度,频率,速度等等。
3.Clinicians have employed an assortment of bevel designs, chamfers, dentinal and enamel grooves, and choices of resin composite materials and techniques for the reattachment of tooth fragments.
临床医生对牙折裂修复技术进行了适当的分类,包括斜面设计、削尖式肩台、牙本质和釉质沟、复合树脂材料的选择以及牙碎片再附着过程的技术细节。
4.Adding a chamfer 倒角 can improve the aesthetics of the product.
添加一个chamfer 倒角可以改善产品的美观性。
5.The machinist used a tool to create a chamfer 倒角 on the metal plate.
机械师使用工具在金属板上制作chamfer 倒角。
6.When assembling the furniture, make sure to apply a chamfer 倒角 on the joints for a smoother fit.
在组装家具时,确保在接缝处施加chamfer 倒角,以获得更顺畅的贴合。
7.The designer specified that all edges must have a chamfer 倒角 to prevent sharp corners.
设计师要求所有边缘必须有一个chamfer 倒角,以防止尖锐的角。
8.The architect recommended a chamfer 倒角 for safety reasons in the building design.
建筑师建议在建筑设计中使用chamfer 倒角出于安全考虑。
作文
In the world of design and engineering, precision is key. One of the essential techniques used to enhance both functionality and aesthetics in various projects is the creation of chamfers. A chamfer is essentially a beveled edge that is cut at an angle, typically 45 degrees, to remove the sharp corners of an object. This technique has been widely adopted in industries ranging from woodworking to metal fabrication, and even in the field of architecture. The purpose of adding chamfers is not only to improve safety by minimizing sharp edges but also to create a visually appealing transition between surfaces.For instance, when constructing furniture, artisans often implement chamfers on tabletops and chair legs. This method not only softens the overall appearance of the piece but also helps in preventing chipping and damage to the edges over time. In metalworking, chamfers are crucial for preparing edges for welding. By creating a beveled edge, welders can ensure a stronger joint, as the molten metal can flow into the groove created by the chamfer, resulting in a more robust bond.Moreover, chamfers play a significant role in the manufacturing of mechanical parts. For example, in the production of gears and bearings, chamfers are often added to facilitate smoother assembly and reduce stress concentrations that could lead to failure. Engineers meticulously calculate the dimensions and angles of chamfers to optimize performance and longevity of the components.In architecture, the use of chamfers can be seen in various structures where they help to soften the harsh lines of buildings. By incorporating chamfers into the design, architects can create a more inviting and harmonious environment. Additionally, chamfers can aid in directing water runoff, thereby enhancing the structural integrity of buildings over time.The application of chamfers extends beyond mere aesthetics; it serves practical purposes that are vital in numerous fields. The careful consideration of where and how to apply chamfers can lead to improved product functionality, safety, and durability. As technology advances, the methods of creating chamfers have evolved as well, with computer-aided design (CAD) software allowing for precise calculations and visualizations before physical production begins.In conclusion, chamfers are more than just a design choice; they are a fundamental aspect of engineering and craftsmanship. Their ability to enhance safety, improve functionality, and contribute to aesthetic appeal makes them invaluable in various applications. Whether in furniture making, metalworking, or architectural design, understanding and implementing chamfers is essential for anyone involved in these fields. As we continue to innovate and push the boundaries of design, the importance of chamfers will undoubtedly remain a constant in the pursuit of excellence in craftsmanship and engineering.
在设计和工程的世界里,精确性是关键。用于增强各种项目功能性和美观性的基本技术之一就是创建倒角。倒角本质上是一种以特定角度(通常为45度)切割的斜边,用以去除物体的尖锐角。这种技术已被广泛应用于从木工到金属加工,甚至建筑领域。添加倒角的目的不仅是为了通过减少尖锐边缘来提高安全性,还为了在表面之间创造一个视觉上吸引人的过渡。例如,在制作家具时,工匠们常常在桌面和椅腿上实施倒角。这种方法不仅柔化了整体外观,还能防止边缘随着时间的推移而崩裂和受损。在金属加工中,倒角对于焊接准备至关重要。通过创建斜边,焊接工可以确保更强的接头,因为熔化的金属可以流入倒角所形成的凹槽,从而形成更坚固的结合。此外,倒角在机械零件的制造中也发挥着重要作用。例如,在齿轮和轴承的生产中,通常会添加倒角以促进更顺利的组装,并减少可能导致故障的应力集中。工程师们仔细计算倒角的尺寸和角度,以优化组件的性能和耐用性。在建筑方面,倒角的使用可以在各种结构中看到,它们有助于柔化建筑物的生硬线条。通过将倒角纳入设计,建筑师可以创造出一个更具吸引力和和谐的环境。此外,倒角可以帮助引导水流,从而增强建筑物的结构完整性。倒角的应用不仅仅是美学选择;它还在众多领域中服务于重要的实际目的。仔细考虑在何处以及如何应用倒角可以提高产品的功能性、安全性和耐久性。随着技术的进步,创建倒角的方法也在不断发展,计算机辅助设计(CAD)软件使得在实际生产开始之前能够进行精确的计算和可视化。总之,倒角不仅仅是设计选择;它们是工程和工艺的重要组成部分。它们增强安全性、改善功能性并有助于美观的能力,使其在各种应用中都不可或缺。无论是在家具制作、金属加工还是建筑设计中,理解和实施倒角对任何参与这些领域的人来说都是至关重要的。随着我们不断创新并推动设计的边界,倒角的重要性无疑将在追求工艺和工程卓越的过程中保持不变。
