strut vee angle

简明释义

支臂轴夹角

英英释义

例句

1.In the design phase, we need to finalize the strut vee angle for optimal performance.

在设计阶段，我们需要最终确定支撑V型角度以获得最佳性能。

2.The strut vee angle is crucial for maintaining the integrity of the frame.

支撑V型角度对保持框架的完整性至关重要。

3.The engineer calculated the strut vee angle to ensure the stability of the structure.

工程师计算了支撑V型角度以确保结构的稳定性。

4.Adjusting the strut vee angle can significantly impact the load distribution.

调整支撑V型角度可以显著影响负载分布。

5.During the assembly, ensure the strut vee angle is aligned correctly.

在组装过程中，确保支撑V型角度正确对齐。

作文

In the field of engineering and structural design, understanding the various components that contribute to the stability and integrity of a structure is crucial. One such component is the strut, which plays an essential role in supporting loads and maintaining the shape of structures. The term strut vee angle refers to the specific angle formed between two struts that are arranged in a 'V' shape. This configuration is often used in trusses and frameworks to enhance their load-bearing capacity and overall strength. The significance of the strut vee angle can be observed in various applications, from bridges to buildings. When engineers design a structure, they must carefully consider the angles at which struts are placed. The strut vee angle not only affects the distribution of forces throughout the structure but also influences its aesthetic appeal. A well-designed angle can lead to both functional and visual harmony. For instance, in a bridge design, the strut vee angle is critical in ensuring that the weight of vehicles is evenly distributed across the span. If the angle is too steep or too shallow, it could lead to uneven stress on the materials, potentially resulting in structural failure. Therefore, engineers use mathematical models and simulations to determine the optimal strut vee angle for each specific project. Furthermore, the choice of materials used for struts also interacts with the strut vee angle. Different materials have varying strengths and weaknesses, which can affect how they perform under different angles. For example, steel struts may handle acute angles better than wooden ones, which could be more prone to bending or breaking under high stress. Thus, understanding the relationship between material properties and the strut vee angle is vital in the design process. In addition to practical applications, the strut vee angle also has implications in the realm of aesthetics. Architects often collaborate with engineers to create structures that are not only functional but also visually appealing. The angles formed by struts can create dynamic lines and shapes that enhance the overall design of a building. For example, a modern skyscraper might feature a distinctive façade that incorporates various strut vee angles to create a sense of movement and fluidity. Moreover, the strut vee angle can also impact the efficiency of construction. When struts are prefabricated, the angles must be precise to ensure that they fit together correctly on-site. Any discrepancies in the strut vee angle can lead to delays and increased costs during the construction process. Therefore, skilled workers must pay close attention to detail when assembling these components. In conclusion, the strut vee angle is a fundamental concept in engineering and architecture that influences the structural integrity, aesthetic value, and construction efficiency of a project. By understanding the importance of this angle, professionals in the field can create designs that are not only safe and durable but also visually striking. As technology continues to advance, the analysis and application of the strut vee angle will undoubtedly evolve, leading to even more innovative and resilient structures in the future.

在工程和结构设计领域，理解构成结构稳定性和完整性的各种组件至关重要。其中一个组件是支撑杆，它在支持荷载和保持结构形状方面起着重要作用。术语strut vee angle指的是两个以“V”形排列的支撑杆之间形成的特定角度。这种配置通常用于桁架和框架，以增强其承载能力和整体强度。strut vee angle的重要性可以在各种应用中观察到，从桥梁到建筑物。当工程师设计结构时，必须仔细考虑支撑杆放置的角度。strut vee angle不仅影响力在整个结构中的分布，还影响其美学吸引力。精心设计的角度可以实现功能和视觉上的和谐。例如，在桥梁设计中，strut vee angle对于确保车辆的重量均匀分布在跨越中至关重要。如果角度过陡或过平，可能会导致材料上的应力不均，最终导致结构失效。因此，工程师使用数学模型和模拟来确定每个具体项目的最佳strut vee angle。此外，支撑杆所用材料的选择也与strut vee angle相互作用。不同材料具有不同的强度和弱点，这可能影响它们在不同角度下的表现。例如，钢制支撑杆可能比木质支撑杆更好地处理锐角，而木质支撑杆在高应力下可能更容易弯曲或断裂。因此，理解材料特性与strut vee angle之间的关系在设计过程中至关重要。除了实际应用外，strut vee angle在美学领域也有影响。建筑师通常与工程师合作，创造既功能性又视觉吸引力的结构。支撑杆形成的角度可以创造出动态的线条和形状，从而增强建筑的整体设计。例如，一座现代摩天大楼可能会采用独特的外立面，结合各种strut vee angles，以创造动感和流畅感。此外，strut vee angle还会影响施工效率。当支撑杆预制时，角度必须精确，以确保它们在现场正确组装。strut vee angle的任何差异都可能导致施工过程中的延误和成本增加。因此，熟练的工人在组装这些组件时必须密切关注细节。总之，strut vee angle是工程和建筑中一个基本概念，影响项目的结构完整性、美学价值和施工效率。通过理解这个角度的重要性，专业人士可以设计出安全耐用且视觉上引人注目的设计。随着技术的不断进步，对strut vee angle的分析和应用无疑会不断发展，未来将产生更加创新和坚固的结构。