stringer angle

简明释义

舷侧纵通角钢

英英释义

例句

1.When designing the bridge, engineers calculated the optimal stringer angle 弦杆角度 for maximum strength.

在设计桥梁时，工程师计算了最大强度所需的最佳stringer angle 弦杆角度。

2.Adjusting the stringer angle 弦杆角度 can significantly affect the load distribution in a structure.

调整stringer angle 弦杆角度可以显著影响结构中的荷载分布。

3.The stringer angle 弦杆角度 is crucial for the stability of the roof trusses.

对于屋顶桁架的稳定性来说，stringer angle 弦杆角度是至关重要的。

4.During the construction of the deck, the workers ensured that each stringer angle 弦杆角度 was accurate.

在甲板施工期间，工人们确保每个stringer angle 弦杆角度都是准确的。

5.The architect specified the stringer angle 弦杆角度 to ensure proper support for the staircase.

建筑师规定了stringer angle 弦杆角度以确保楼梯的适当支撑。

作文

In the world of engineering and architecture, understanding various structural components is crucial for the successful design and execution of projects. One such component is the angle formed by a stringer, which is often referred to as the stringer angle. The stringer angle plays a significant role in determining the stability and strength of structures, particularly in staircases and bridges. This essay aims to explore the importance of the stringer angle in construction and how it influences the overall integrity of a building. A stringer is a long, horizontal support that runs along the length of a staircase or ramp, providing essential structural support. The stringer angle refers to the angle between the stringer and the horizontal plane, which directly affects the rise and run of the stairs. A well-calculated stringer angle ensures that the stairs are not only functional but also safe for users. If the angle is too steep, it can create a hazard for individuals using the stairs, while a too-gentle angle may make the stairs impractical for efficient movement.When designing a staircase, architects must consider the stringer angle carefully. Building codes often dictate specific measurements for stair dimensions, including the rise and run, which are influenced by the stringer angle. For example, a common rule is that the rise should not exceed seven inches, while the run should be at least eleven inches. These measurements help ensure that the stringer angle remains within safe limits, promoting ease of use and accessibility. Moreover, the stringer angle is not only vital for staircases but also for other structures, such as bridges. In bridge construction, the stringers provide support for the deck and distribute loads effectively. The angle at which these stringers are positioned can significantly impact the load-bearing capacity of the bridge. Engineers must calculate the appropriate stringer angle to ensure that the bridge can withstand various forces, including traffic loads and environmental factors like wind and seismic activity. In addition to safety and functionality, the stringer angle also contributes to the aesthetic appeal of a structure. A well-designed staircase with an appropriate stringer angle can enhance the visual flow of a space, making it more inviting and accessible. Similarly, in bridge design, the angles and lines created by stringers can add to the overall beauty of the structure, showcasing the skill and creativity of the engineers and architects involved. In conclusion, the stringer angle is a fundamental aspect of structural design that cannot be overlooked. Its implications for safety, functionality, and aesthetics make it a critical consideration for architects and engineers alike. As we continue to push the boundaries of design and construction, understanding the intricacies of components like the stringer angle will remain essential for creating safe and beautiful structures that stand the test of time.

在工程和建筑的世界中，理解各种结构组件对于项目的成功设计和执行至关重要。一个这样的组件是由支撑杆形成的角度，通常称为stringer angle。stringer angle在确定结构的稳定性和强度方面发挥着重要作用，特别是在楼梯和桥梁中。本文旨在探讨stringer angle在建筑中的重要性，以及它如何影响建筑的整体完整性。支撑杆是沿楼梯或斜坡长度延伸的长水平支撑，提供必要的结构支持。stringer angle是指支撑杆与水平面之间的角度，这直接影响到楼梯的升高和延伸。精确计算的stringer angle确保楼梯不仅功能齐全，而且对用户安全。如果角度过陡，会给使用楼梯的人带来危险，而角度过缓则可能使楼梯在高效移动时不切实际。在设计楼梯时，建筑师必须仔细考虑stringer angle。建筑规范通常规定楼梯尺寸的具体测量，包括升高和延伸，这些都受到stringer angle的影响。例如，一个常见的规则是，升高不应超过七英寸，而延伸应至少为十一英寸。这些测量有助于确保stringer angle保持在安全范围内，促进使用的便利性和可达性。此外，stringer angle不仅对楼梯至关重要，也对其他结构如桥梁非常重要。在桥梁建设中，支撑杆为桥面提供支撑，并有效分配载荷。支撑杆的角度可以显著影响桥梁的承载能力。工程师必须计算适当的stringer angle以确保桥梁能够承受各种力量，包括交通负荷和风、地震等环境因素。除了安全性和功能性之外，stringer angle还对结构的美学吸引力有所贡献。设计良好的楼梯，具有适当的stringer angle，可以增强空间的视觉流动，使其更具吸引力和可达性。同样，在桥梁设计中，支撑杆所形成的角度和线条可以增加结构的整体美感，展示参与工程师和建筑师的技能和创造力。总之，stringer angle是结构设计的基本方面，不能被忽视。它对安全性、功能性和美学的影响使其成为建筑师和工程师需要重点考虑的关键因素。随着我们继续推动设计和施工的边界，理解像stringer angle这样的组件的复杂性将继续对创建安全、美观并经得起时间考验的结构至关重要。