resultant deflection

简明释义

合成偏转

英英释义

例句

1.The resultant deflection of the structure was measured during the stress test.

在压力测试中测量了结构的结果挠度。

2.The engineer calculated the resultant deflection to ensure the beam would not exceed safety limits.

工程师计算了结果挠度以确保梁不会超过安全限值。

3.To prevent failure, the resultant deflection must be kept within specified limits.

为了防止失败，结果挠度必须保持在规定的范围内。

4.In the bridge design, the resultant deflection under load was a critical factor.

在桥梁设计中，承载下的结果挠度是一个关键因素。

5.The software can simulate the resultant deflection of various materials under different loads.

该软件可以模拟在不同载荷下各种材料的结果挠度。

作文

In the field of engineering and structural analysis, understanding the concept of resultant deflection is crucial. The term refers to the total displacement that a structure experiences when subjected to various loads. When engineers design buildings, bridges, or any other structures, they must consider how these structures will respond to forces such as weight, wind, and seismic activity. The resultant deflection can significantly impact the safety and longevity of a structure. To illustrate this point, let us consider a simple example of a beam supported at both ends. When a load is applied to the center of the beam, it bends, and the amount it bends is known as its deflection. However, if there are additional forces acting on the beam, such as lateral loads from wind or uneven distribution of weight, the deflection becomes more complex. The resultant deflection, therefore, is the cumulative effect of all these forces acting on the beam. Engineers use mathematical models and simulations to calculate the resultant deflection of structures under various loading conditions. This calculation helps in determining whether a structure can withstand the expected loads without experiencing excessive deflection that could lead to structural failure. For instance, if the resultant deflection exceeds certain limits, it may indicate that the materials used are insufficient for the intended purpose, or that the design needs to be revised to ensure stability. Moreover, the implications of resultant deflection extend beyond just structural integrity. Excessive deflection can also lead to aesthetic concerns, as it may affect the appearance of the building or bridge. In some cases, noticeable deflection can create discomfort for occupants or users of a structure, especially in floors or walkways. Therefore, controlling the resultant deflection is essential not only for safety but also for user experience. In conclusion, the concept of resultant deflection plays a vital role in the design and analysis of structures. By understanding how different loads interact and contribute to the overall deflection, engineers can create safer, more efficient, and aesthetically pleasing structures. The importance of accurately calculating the resultant deflection cannot be overstated, as it directly impacts the performance and reliability of engineering projects. As technology advances, the methods for analyzing and predicting resultant deflection continue to improve, allowing for even more innovative designs that meet the challenges of modern construction. In summary, the study of resultant deflection is not merely an academic exercise; it is a fundamental aspect of engineering that ensures our built environment is safe, functional, and visually appealing.

在工程和结构分析领域，理解结果挠度的概念至关重要。这个术语指的是当结构受到各种载荷时所经历的总位移。当工程师设计建筑物、桥梁或任何其他结构时，他们必须考虑这些结构在承受重量、风力和地震活动等力量时的反应。结果挠度可能会对结构的安全性和耐久性产生重大影响。 为了说明这一点，让我们考虑一个简单的例子：一根两端支撑的梁。当负载施加到梁的中心时，它会弯曲，而弯曲的程度被称为其挠度。然而，如果梁上还有其他作用力，例如来自风的横向载荷或不均匀的重量分布，挠度就变得更加复杂。因此，结果挠度就是所有这些作用在梁上的力的累积效应。 工程师使用数学模型和模拟来计算结构在各种加载条件下的结果挠度。这个计算有助于确定一个结构是否能够承受预期的载荷而不会经历过度的挠度，这可能导致结构失效。例如，如果结果挠度超过某些限制，这可能表明所使用的材料不足以满足预期用途，或者需要修订设计以确保稳定性。 此外，结果挠度的影响不仅限于结构完整性。过度的挠度还可能导致美学问题，因为它可能影响建筑物或桥梁的外观。在某些情况下，明显的挠度可能会给建筑物或结构的使用者带来不适，尤其是在地板或人行道上。因此，控制结果挠度对于安全和用户体验至关重要。 总之，结果挠度的概念在结构的设计和分析中发挥着至关重要的作用。通过理解不同载荷如何相互作用并对整体挠度产生影响，工程师可以创建更安全、更高效且更具美感的结构。准确计算结果挠度的重要性不容小觑，因为它直接影响工程项目的性能和可靠性。随着技术的进步，分析和预测结果挠度的方法不断改进，使得设计更加创新，以应对现代建筑的挑战。 总之，研究结果挠度不仅仅是学术练习；它是工程的一个基本方面，确保我们建造的环境安全、功能齐全且视觉上令人愉悦。