bending radius

简明释义

弯曲半径;

英英释义

例句

1.When designing the piping system, engineers must consider the bending radius 弯曲半径 to ensure fluid flow is not restricted.

在设计管道系统时，工程师必须考虑弯曲半径 弯曲半径，以确保流体流动不受限制。

2.In telecommunications, the bending radius 弯曲半径 of fiber optic cables is critical to maintain signal integrity.

在电信中，光纤电缆的弯曲半径 弯曲半径对保持信号完整性至关重要。

3.The manufacturer specified the minimum bending radius 弯曲半径 for the cable to prevent damage during installation.

制造商规定了电缆的最小弯曲半径 弯曲半径，以防止在安装过程中损坏。

4.A tight bending radius 弯曲半径 can lead to increased stress on the material, potentially causing failure.

过紧的弯曲半径 弯曲半径会导致材料应力增加，可能导致故障。

5.The engineering team tested different cables to find the optimal bending radius 弯曲半径 for their specific application.

工程团队测试了不同的电缆，以找到适合其特定应用的最佳弯曲半径 弯曲半径。

作文

In the world of engineering and design, understanding the concept of bending radius is crucial for ensuring the integrity and functionality of various structures and materials. The term bending radius refers to the minimum radius that a material can be bent without experiencing failure or damage. This concept is particularly important in fields such as civil engineering, mechanical engineering, and architecture, where materials are often subjected to various forces and stresses.For instance, when designing pipelines, engineers must consider the bending radius to prevent the pipes from kinking or breaking under pressure. A smaller bending radius may lead to increased stress on the material, which can result in cracks or leaks over time. Therefore, selecting the appropriate bending radius is essential for maintaining the safety and reliability of the pipeline system.Similarly, in the automotive industry, the bending radius plays a vital role in the design of components such as exhaust systems and suspension parts. Manufacturers must ensure that these components can withstand the forces they encounter during operation while maintaining their shape and functionality. If the bending radius is too small, it could lead to premature failure of the component, resulting in costly repairs and potential safety hazards.Furthermore, the bending radius is also significant in the context of electrical wiring and cable management. When installing cables, it is important to adhere to the recommended bending radius to prevent damage to the insulation and conductors. Exceeding the maximum bending radius can lead to wire breakage or short circuits, which can compromise the performance of electrical systems.In addition to its practical applications, the bending radius also has implications in the realm of design aesthetics. Architects and designers often utilize curves and bends to create visually appealing structures. Understanding the limitations of bending radius allows them to incorporate these elements without sacrificing structural integrity. For example, in the design of bridges, the bending radius must be carefully calculated to ensure that the bridge can support the weight of vehicles while maintaining a graceful appearance.Overall, the concept of bending radius is an essential consideration across various industries. It influences not only the safety and reliability of materials but also the aesthetic quality of designs. By understanding and applying the principles of bending radius, engineers and designers can create solutions that are both functional and visually appealing. As technology continues to advance, the importance of accurately determining and adhering to the bending radius will only grow, highlighting the need for ongoing education and innovation in this critical area of study.

在工程和设计的世界中，理解bending radius的概念对于确保各种结构和材料的完整性和功能至关重要。术语bending radius指的是材料可以弯曲而不发生故障或损坏的最小半径。这个概念在土木工程、机械工程和建筑等领域尤为重要，因为材料经常受到各种力量和应力的作用。例如，在设计管道时，工程师必须考虑bending radius以防止管道在压力下扭曲或破裂。较小的bending radius可能导致材料上施加更大的应力，从而导致裂缝或泄漏。因此，选择适当的bending radius对于维护管道系统的安全性和可靠性至关重要。同样，在汽车工业中，bending radius在排气系统和悬挂部件等组件的设计中也发挥着至关重要的作用。制造商必须确保这些组件能够承受在操作过程中遇到的力量，同时保持其形状和功能。如果bending radius过小，可能会导致组件的提前失效，从而造成昂贵的维修费用和潜在的安全隐患。此外，bending radius在电气布线和电缆管理方面也具有重要意义。在安装电缆时，遵循推荐的bending radius非常重要，以防止对绝缘层和导体造成损害。超过最大bending radius可能导致电线断裂或短路，从而影响电气系统的性能。除了其实际应用外，bending radius在设计美学方面也有影响。建筑师和设计师经常利用曲线和弯曲来创造视觉上令人愉悦的结构。理解bending radius的限制使他们能够在不牺牲结构完整性的情况下融入这些元素。例如，在桥梁设计中，必须仔细计算bending radius以确保桥梁能够支撑车辆的重量，同时保持优雅的外观。总体而言，bending radius的概念是各个行业的重要考虑因素。它不仅影响材料的安全性和可靠性，还影响设计的美学质量。通过理解和应用bending radius的原理，工程师和设计师可以创造出既实用又美观的解决方案。随着技术的不断进步，准确确定和遵守bending radius的重要性将只会增加，这突显了在这一关键研究领域持续教育和创新的必要性。