minimum allowable radius

简明释义

最小容许半径

英英释义

例句

1.The designer calculated the minimum allowable radius 最小允许半径 for the corner of the track to enhance the vehicle's stability.

设计师计算了赛道转角的最小允许半径 minimum allowable radius 以增强车辆的稳定性。

2.The architect specified a minimum allowable radius 最小允许半径 of 1.5 meters for the circular staircase to ensure safety.

建筑师指定了圆形楼梯的最小允许半径 minimum allowable radius 为1.5米，以确保安全。

3.In the new aircraft design, the minimum allowable radius 最小允许半径 for the wing curvature is crucial for aerodynamics.

在新的飞机设计中，机翼曲率的最小允许半径 minimum allowable radius 对气动性能至关重要。

4.The engineering team determined that the minimum allowable radius 最小允许半径 for the turn in the road design is 50 meters.

工程团队确定道路设计中转弯的最小允许半径 minimum allowable radius 为50米。

5.During the construction of the pipeline, workers must adhere to the minimum allowable radius 最小允许半径 to prevent kinking.

在管道施工过程中，工人必须遵守最小允许半径 minimum allowable radius 以防止管道弯曲。

作文

In engineering and design, particularly in fields such as civil engineering and architecture, the concept of the minimum allowable radius plays a crucial role. The minimum allowable radius refers to the smallest radius that can be used for curves in structures or pathways without compromising their integrity and functionality. Understanding this concept is essential for ensuring safety and efficiency in construction projects.For instance, consider the design of a highway. Engineers must calculate the minimum allowable radius for curves to ensure that vehicles can navigate them safely at high speeds. If the radius is too small, vehicles may lose control, leading to accidents. Therefore, the minimum allowable radius is determined based on factors such as the speed limit, road conditions, and vehicle dynamics.Similarly, in the field of architecture, the minimum allowable radius is crucial when designing elements like staircases and ramps. For example, when constructing a spiral staircase, the radius must be large enough to allow for comfortable and safe use. If the radius is too tight, it could create an uncomfortable experience for users and pose safety risks, especially for individuals with mobility challenges.Moreover, the minimum allowable radius is not only applicable in the realm of physical structures but also in various manufacturing processes. In the production of materials such as metal and plastic, bending and shaping these materials require adherence to specific radii to prevent fractures or failures. Engineers and designers must take into account the minimum allowable radius to ensure that the final product meets quality standards and performs as intended.In addition to safety considerations, adhering to the minimum allowable radius can also impact the aesthetic aspects of a design. For example, in landscape architecture, the curvature of pathways or garden beds must consider the minimum allowable radius to achieve a visually pleasing layout while maintaining functionality. A well-planned design that respects these parameters can enhance the overall beauty and usability of a space.Furthermore, the minimum allowable radius can vary depending on the materials used and the specific application. For instance, different types of piping systems have their own minimum allowable radius requirements based on the material's flexibility and the pressure within the system. Understanding these variations is critical for engineers to ensure that systems function correctly and efficiently.In conclusion, the concept of the minimum allowable radius is fundamental across various disciplines, including engineering, architecture, and manufacturing. It serves as a guideline for designing safe, functional, and aesthetically pleasing structures and products. By understanding and applying the minimum allowable radius, professionals can mitigate risks, enhance performance, and create designs that stand the test of time. Ultimately, this knowledge contributes to the overall success of projects, ensuring that they meet both safety standards and user expectations.

在工程和设计领域，特别是在土木工程和建筑等领域，最小允许半径的概念起着至关重要的作用。最小允许半径是指在结构或路径中可以使用的最小曲率半径，而不影响它们的完整性和功能。理解这一概念对于确保建筑项目的安全性和效率至关重要。例如，考虑高速公路的设计。工程师必须计算曲线的最小允许半径，以确保车辆能够安全地以高速通过。如果半径过小，车辆可能会失去控制，从而导致事故。因此，最小允许半径是根据限速、道路条件和车辆动态等因素确定的。同样，在建筑领域，最小允许半径在设计楼梯和坡道等元素时至关重要。例如，在建造螺旋楼梯时，半径必须足够大，以便让人们舒适、安全地使用。如果半径过紧，可能会给用户带来不适，并对行动不便的人构成安全风险。此外，最小允许半径不仅适用于物理结构，还适用于各种制造过程。在金属和塑料等材料的生产中，弯曲和成型这些材料需要遵循特定的半径，以防止断裂或故障。工程师和设计师必须考虑最小允许半径，以确保最终产品符合质量标准并按预期运行。除了安全考虑外，遵守最小允许半径还会影响设计的美学方面。例如，在景观建筑中，小径或花坛的曲率必须考虑最小允许半径，以实现视觉上令人愉悦的布局，同时保持功能性。一个尊重这些参数的精心规划的设计可以增强空间的整体美感和可用性。此外，最小允许半径可能因所用材料和特定应用而异。例如，不同类型的管道系统具有自己的最小允许半径要求，这取决于材料的柔韧性和系统内的压力。理解这些变化对于工程师确保系统正常高效运行至关重要。总之，最小允许半径的概念在工程、建筑和制造等各个学科中都是基础性的。它为设计安全、功能性和美观的结构和产品提供了指导。通过理解和应用最小允许半径，专业人员可以降低风险、提高性能，并创造出经受时间考验的设计。最终，这一知识有助于项目的整体成功，确保它们满足安全标准和用户期望。