flangeless
简明释义
adj. 无凸缘的
英英释义
没有法兰的;缺少突出边缘或边缘。 |
单词用法
无法兰设计 | |
无法兰管道 | |
无法兰连接 | |
无法兰接头 |
同义词
反义词
| 带法兰的 | 这根管道是带法兰的,以便更好地连接。 | ||
| 法兰 | Ensure that the flanges are properly aligned before tightening. | 确保在拧紧之前法兰正确对齐。 |
例句
1.The detained calculation methods and steps are introduced on technology of flangeless cylindrical part. It possesses much better applicability in production and teaching.
本文主要对无凸缘筒形件拉深的工艺计算提出了较为详细的计算方法和步骤,经生产、教学实践应用,具有较好的适用性。
2.Flangeless cylindrical parts are a kind of drawing parts and widely applied in production.
无凸缘筒形件是生产中应用较为普遍的一种拉深制件。
3.The detained calculation methods and steps are introduced on technology of flangeless cylindrical part. It possesses much better applicability in production and teaching.
本文主要对无凸缘筒形件拉深的工艺计算提出了较为详细的计算方法和步骤,经生产、教学实践应用,具有较好的适用性。
4.For this project, we need flangeless fittings to ensure compatibility with the existing pipes.
对于这个项目,我们需要无法兰配件以确保与现有管道的兼容性。
5.We opted for a flangeless connector to reduce the overall size of the assembly.
我们选择了无法兰连接器,以减少组件的整体尺寸。
6.The manufacturer specializes in flangeless designs to meet modern aesthetic demands.
该制造商专注于无法兰设计,以满足现代美学需求。
7.The new design features a flangeless edge, allowing for a sleeker appearance.
新设计采用了无法兰的边缘,外观更加流畅。
8.The flangeless plates are easier to install and provide a more seamless look.
这些无法兰板材更易于安装,提供了更无缝的外观。
作文
In the world of engineering and design, the term flangeless refers to components or structures that do not have a flange, which is a projecting flat rim or edge. This concept is particularly significant in various applications, including piping, machinery, and construction. Understanding the implications of being flangeless can lead to innovative designs and improvements in efficiency.For instance, when designing a pipe system, engineers often consider whether to use flanged connections or flangeless ones. Flanged connections, while providing a secure and robust method for joining pipes, can also introduce additional weight and complexity. In contrast, flangeless designs can simplify installation processes and reduce the overall weight of the system. This can be especially beneficial in applications where space and weight are critical factors, such as in aerospace engineering.Moreover, the use of flangeless components can enhance the aesthetic appeal of a design. In architectural applications, for example, a flangeless approach can create a sleek and modern look. By eliminating protruding edges, designers can achieve a smoother and more streamlined appearance, which is often desirable in contemporary architecture.However, adopting a flangeless design does come with its own set of challenges. One major consideration is the need for precise manufacturing and assembly techniques. Without flanges to provide alignment and support, flangeless components must be engineered with exact tolerances to ensure proper fit and function. This may require advanced machining processes and meticulous quality control measures.Additionally, the structural integrity of flangeless designs must be carefully evaluated. Engineers must ensure that these components can withstand the same pressures and stresses as their flanged counterparts. This often involves extensive testing and analysis to confirm that flangeless components meet safety and performance standards.In conclusion, the concept of being flangeless presents both opportunities and challenges in engineering and design. While it can lead to lighter, more aesthetically pleasing, and simpler assemblies, it also requires careful consideration of manufacturing precision and structural integrity. As industries continue to evolve and seek innovative solutions, the exploration of flangeless designs will likely play an increasingly important role in shaping the future of engineering and architecture. By understanding the nuances of flangeless components, professionals can better navigate the complexities of modern design and contribute to advancements in their respective fields.
在工程和设计的世界中,术语flangeless指的是没有法兰的组件或结构,法兰是一个突出的平坦边缘或边缘。这个概念在各种应用中尤为重要,包括管道、机械和建筑。理解flangeless的含义可以带来创新的设计和效率的提升。例如,在设计管道系统时,工程师通常会考虑使用法兰连接还是flangeless连接。法兰连接虽然提供了一种安全稳固的连接管道的方法,但也可能增加额外的重量和复杂性。相反,flangeless设计可以简化安装过程并减少系统的整体重量。这在空间和重量至关重要的应用中尤其有利,例如航空航天工程。此外,使用flangeless组件可以增强设计的美学吸引力。在建筑应用中,例如,flangeless方法可以创造出流畅和现代的外观。通过消除突出的边缘,设计师可以实现更平滑和更流线型的外观,这在当代建筑中常常是理想的。然而,采用flangeless设计也面临着一系列挑战。一个主要的考虑因素是对精确制造和组装技术的需求。没有法兰提供对齐和支撑,flangeless组件必须以精确的公差进行工程设计,以确保适当的配合和功能。这可能需要先进的机械加工工艺和严格的质量控制措施。此外,flangeless设计的结构完整性必须经过仔细评估。工程师必须确保这些组件能够承受与法兰对应物相同的压力和应力。这通常涉及广泛的测试和分析,以确认flangeless组件符合安全和性能标准。总之,flangeless的概念在工程和设计中提出了机遇和挑战。虽然它可以导致更轻、更具美学吸引力和更简单的组件,但它也需要仔细考虑制造精度和结构完整性。随着各行业不断发展并寻求创新解决方案,探索flangeless设计在塑造未来工程和建筑方面将发挥越来越重要的作用。通过理解flangeless组件的细微差别,专业人士可以更好地驾驭现代设计的复杂性,并为各自领域的进步做出贡献。
