angle fillet

简明释义

三角形盖板

英英释义

例句

1.Using an angle fillet 角焊接圆角 can reduce stress concentration in metal structures.

使用angle fillet 角焊接圆角可以减少金属结构中的应力集中。

2.We need to calculate the radius of the angle fillet 角焊接圆角 for the fabrication process.

我们需要计算制造过程中angle fillet 角焊接圆角的半径。

3.The CAD software allows us to easily create an angle fillet 角焊接圆角 in our 3D model.

CAD软件使我们能够在3D模型中轻松创建angle fillet 角焊接圆角。

4.The engineer specified an angle fillet 角焊接圆角 to improve the strength of the joint.

工程师指定了一个angle fillet 角焊接圆角以提高接头的强度。

5.The design requires an angle fillet 角焊接圆角 to ensure a smooth transition between two surfaces.

设计要求使用angle fillet 角焊接圆角以确保两个表面之间的平滑过渡。

作文

In the field of engineering and design, the term angle fillet refers to a specific type of geometric feature used to enhance the structural integrity and aesthetic appeal of various components. An angle fillet is essentially a rounded or curved transition between two intersecting surfaces, often found in the corners of metal parts or architectural elements. This design choice not only improves the flow of stress across the joint but also reduces the risk of stress concentration that can lead to material failure. The application of angle fillet is widespread in industries such as automotive, aerospace, and construction. For instance, in automotive design, the use of angle fillet can be seen in the chassis and bodywork of vehicles. By incorporating these rounded edges, manufacturers are able to create parts that are not only stronger but also lighter, which is crucial for improving fuel efficiency. Additionally, the smooth transitions provided by angle fillet contribute to the overall aerodynamics of the vehicle, further enhancing performance. In aerospace engineering, the significance of angle fillet becomes even more pronounced. Aircraft components are subjected to extreme forces and pressures during flight, making it essential to minimize potential points of failure. The implementation of angle fillet in wing structures and fuselage designs helps distribute loads evenly, thereby increasing the durability and safety of the aircraft. Furthermore, the streamlined shapes created by angle fillet features help reduce drag, which is vital for achieving optimal flight efficiency. From an architectural perspective, the use of angle fillet can greatly enhance the visual appeal of buildings and structures. Architects often employ this design element to soften the harsh lines created by sharp corners, resulting in a more inviting and aesthetically pleasing appearance. For example, in modern architecture, angle fillet can be found in the design of facades, where it serves both functional and decorative purposes. The rounded edges can also help improve the flow of water during rain, preventing water accumulation at corners and thus reducing maintenance issues. Moreover, the manufacturing process of creating angle fillet features has evolved significantly with advancements in technology. Computer-aided design (CAD) software allows engineers to easily incorporate angle fillet into their models, ensuring precision and consistency across designs. Additionally, modern machining techniques, such as CNC milling, enable the production of complex shapes with high accuracy, making it easier to implement angle fillet in various materials, including metals, plastics, and composites. In conclusion, the concept of angle fillet plays a crucial role in engineering, design, and architecture. Its ability to enhance structural integrity, improve aesthetics, and streamline manufacturing processes makes it an invaluable feature across multiple industries. Understanding the importance and applications of angle fillet is essential for professionals in these fields, as it directly impacts the performance and longevity of products and structures. As technology continues to advance, the use of angle fillet will likely become even more prevalent, paving the way for innovative designs that prioritize both functionality and beauty.

在工程和设计领域，术语angle fillet指的是一种特定的几何特征，用于增强各种组件的结构完整性和美学吸引力。angle fillet本质上是两个相交表面之间的圆形或曲线过渡，通常出现在金属零件或建筑元素的角落。这种设计选择不仅改善了应力在接头处的流动，还减少了可能导致材料失效的应力集中风险。
angle fillet的应用在汽车、航空航天和建筑等行业中非常广泛。例如，在汽车设计中，angle fillet的使用可以在车辆的底盘和车身上看到。通过结合这些圆润的边缘，制造商能够创造出不仅更强大而且更轻的部件，这对于提高燃油效率至关重要。此外，angle fillet所提供的平滑过渡有助于车辆的整体空气动力学，进一步增强性能。
在航空航天工程中，angle fillet的重要性变得更加突出。飞机部件在飞行过程中承受极端的力量和压力，因此减少潜在故障点至关重要。在机翼结构和机身设计中实施angle fillet有助于均匀分配负载，从而提高飞机的耐久性和安全性。此外，由angle fillet特征创造的流线型形状有助于减少阻力，这对于实现最佳飞行效率至关重要。
从建筑的角度来看，使用angle fillet可以极大地增强建筑物和结构的视觉吸引力。建筑师经常采用这一设计元素来软化尖锐角落所产生的生硬线条，从而形成更具亲和力和美观的外观。例如，在现代建筑中，angle fillet可以在立面的设计中找到，它既起到功能作用，又具有装饰效果。圆润的边缘还可以帮助改善雨水流动，防止水在角落积聚，从而减少维护问题。
此外，随着技术的进步，创建angle fillet特征的制造过程也发生了显著变化。计算机辅助设计（CAD）软件使工程师能够轻松地将angle fillet纳入他们的模型中，确保设计的精确性和一致性。此外，现代加工技术，如数控铣削，使得以高精度生产复杂形状变得更加容易，从而简化了在金属、塑料和复合材料等各种材料中实施angle fillet的过程。
总之，angle fillet的概念在工程、设计和建筑中发挥着至关重要的作用。它增强结构完整性、改善美学以及简化制造过程的能力，使其成为多个行业中不可或缺的特征。理解angle fillet的重要性及其应用对于这些领域的专业人士至关重要，因为这直接影响到产品和结构的性能和寿命。随着技术的不断进步，angle fillet的使用可能会变得更加普遍，为优先考虑功能性和美观的创新设计铺平道路。