stringer angle

简明释义

船侧纵通角钢

英英释义

例句

1.When designing the deck, we had to calculate the stringer angle 支撑角 for optimal load distribution.

在设计甲板时，我们必须计算stringer angle 支撑角以实现最佳负载分配。

2.The contractor adjusted the stringer angle 斜梁角 to meet local building codes.

承包商调整了stringer angle 斜梁角以符合当地建筑规范。

3.Understanding the stringer angle 支撑角 is crucial when constructing a ramp for wheelchair access.

理解stringer angle 支撑角在为轮椅通道建造坡道时至关重要。

4.The architect specified the stringer angle 踏步角 for the staircase to ensure safety and comfort.

建筑师指定了楼梯的stringer angle 踏步角，以确保安全和舒适。

5.The engineer demonstrated how to measure the stringer angle 斜梁角 accurately using a protractor.

工程师演示了如何使用量角器准确测量stringer angle 斜梁角。

作文

In the world of engineering and architecture, precision is paramount. One term that often comes up in discussions about structural integrity and design is stringer angle. The stringer angle refers to the angle formed between the stringers, which are longitudinal supports in a structure such as a staircase or a bridge. Understanding this angle is crucial because it directly affects the load distribution and overall stability of the structure. When engineers design a staircase, for instance, they must consider the stringer angle to ensure that it can support not only the weight of individuals using it but also any additional loads, such as furniture or equipment that might be moved up and down.The importance of the stringer angle extends beyond just staircases. In bridge construction, the stringer angle plays a vital role in determining how forces are transferred through the bridge. A well-calculated stringer angle can enhance the efficiency of the materials used, potentially reducing costs while maintaining safety standards. Engineers use various tools and software to calculate the optimal stringer angle, ensuring that their designs meet both aesthetic and functional requirements.Moreover, the stringer angle can also influence the visual appeal of a structure. For example, in modern architecture, the angles and lines created by stringers can contribute to the overall design language of a building. Architects often play with the stringer angle to create dynamic shapes and forms that capture the eye and invite exploration.Another aspect to consider is the impact of materials on the stringer angle. Different materials have different strengths and weaknesses, which can affect how the angle is perceived and utilized in a design. For instance, steel stringers may allow for steeper stringer angles compared to wooden ones due to their superior strength. This variation necessitates careful planning and consideration during the design phase, as the choice of material will dictate the feasible stringer angle and consequently the structure's safety and functionality.In conclusion, the stringer angle is a fundamental concept in engineering and architecture that influences both the functionality and aesthetics of a structure. It is essential for engineers and architects to understand and accurately calculate the stringer angle to ensure that their designs are safe, efficient, and visually appealing. Whether designing a simple staircase or an elaborate bridge, the stringer angle remains a critical element in the realm of structural design. As technology advances and new materials emerge, the way we approach the stringer angle may evolve, but its significance will undoubtedly remain constant in the pursuit of safe and innovative architectural solutions.

在工程和建筑的世界中，精确性至关重要。一个常常出现在关于结构完整性和设计讨论中的术语是stringer angle。stringer angle指的是形成于结构中的纵向支撑（如楼梯或桥梁）的斜角。理解这个角度至关重要，因为它直接影响负载分布和整体稳定性。例如，当工程师设计楼梯时，他们必须考虑stringer angle以确保它不仅能承受使用者的重量，还能承受可能上下移动的额外负载，如家具或设备。stringer angle的重要性不仅限于楼梯。在桥梁建设中，stringer angle在确定力量如何通过桥梁传递方面发挥着重要作用。经过良好计算的stringer angle可以提高所用材料的效率，从而在保持安全标准的同时降低成本。工程师使用各种工具和软件来计算最佳的stringer angle，确保他们的设计满足美学和功能要求。此外，stringer angle也会影响结构的视觉吸引力。例如，在现代建筑中，支撑杆所创造的角度和线条可以为建筑的整体设计语言做出贡献。建筑师常常利用stringer angle创造出动态的形状和形式，以吸引眼球并邀请探索。另一个需要考虑的方面是材料对stringer angle的影响。不同的材料具有不同的强度和弱点，这可能影响设计中角度的感知和利用。例如，由于钢支撑杆的强度优越，与木材相比，它们可能允许更陡的stringer angles。这种变化在设计阶段需要仔细的规划和考虑，因为材料的选择将决定可行的stringer angle，从而影响结构的安全性和功能性。总之，stringer angle是工程和建筑中的一个基本概念，影响着结构的功能性和美观性。工程师和建筑师必须理解并准确计算stringer angle，以确保他们的设计安全、高效且视觉上引人注目。无论是设计简单的楼梯还是复杂的桥梁，stringer angle始终是结构设计领域的关键要素。随着技术的发展和新材料的出现，我们对stringer angle的处理方式可能会发生变化，但其重要性在追求安全和创新建筑解决方案的过程中无疑将始终保持不变。