stiffening side

简明释义

舱壁有防挠材的一面

英英释义

例句

1.The team analyzed the stiffening side 加固侧 of the bridge to prevent any potential structural failures.

团队分析了桥的stiffening side 加固侧以防止潜在的结构故障。

2.The engineer explained how the stiffening side 加固侧 of the beam would enhance its load-bearing capacity.

工程师解释了梁的stiffening side 加固侧如何增强其承载能力。

3.In the context of aerodynamics, the stiffening side 加固侧 of the wing is crucial for maintaining lift.

在空气动力学中，机翼的stiffening side 加固侧对于保持升力至关重要。

4.During the construction, they focused on the stiffening side 加固侧 to ensure stability against wind forces.

在施工期间，他们专注于stiffening side 加固侧以确保抵御风力的稳定性。

5.The architect designed a stiffening side 加固侧 that would prevent the structure from bending under pressure.

建筑师设计了一个stiffening side 加固侧，以防止结构在压力下弯曲。

作文

In the world of architecture and engineering, the concept of stability is paramount. One of the critical components that contribute to a structure's stability is its ability to resist deformation under various loads. This is where the term stiffening side (加固侧) comes into play. The stiffening side refers to the part of a structure that is designed to provide additional rigidity and strength, thereby enhancing the overall stability of the building or bridge. When engineers design structures, they must consider various forces that can act upon them, such as wind, earthquakes, and the weight of the materials themselves. To ensure that a structure can withstand these forces, they often incorporate elements that serve as a stiffening side (加固侧). For example, in high-rise buildings, the core of the building often acts as a stiffening side (加固侧), providing a central support that helps to distribute loads evenly and maintain the building's shape during high winds or seismic activity.Moreover, the design of the stiffening side (加固侧) is not just about adding material; it involves careful calculations and considerations of geometry and material properties. Engineers use advanced software to simulate how different designs will perform under stress, ensuring that the stiffening side (加固侧) can effectively counteract any potential weaknesses in the structure. This is particularly important in areas prone to natural disasters, where the integrity of a building can mean the difference between safety and disaster.In addition to traditional materials like steel and concrete, modern engineering also explores innovative materials and techniques to enhance the stiffening side (加固侧). For instance, fiber-reinforced polymers are increasingly being used for their lightweight yet strong properties, allowing for more flexible designs without compromising stability. This evolution in materials science means that architects and engineers can create more daring and aesthetically pleasing structures while still ensuring they are safe and robust.Furthermore, the concept of the stiffening side (加固侧) extends beyond physical structures. In the realm of personal development and psychology, one might draw parallels to the idea of having a 'stiffening side' (加固侧) in our lives. Just as buildings need support to stand tall, individuals often require a strong foundation of principles, values, and support systems to navigate life's challenges. Cultivating resilience and a strong support network can be seen as developing one's own stiffening side (加固侧), allowing us to withstand the pressures and stresses that life presents.In conclusion, whether in the context of structural engineering or personal growth, the idea of a stiffening side (加固侧) plays a vital role. It emphasizes the importance of strength, stability, and support in both our physical environments and our personal lives. By understanding and applying the principles behind the stiffening side (加固侧), we can create not only safer buildings but also more resilient individuals capable of facing the challenges that come our way.

在建筑和工程的世界中，稳定性至关重要。影响结构稳定性的关键组成部分之一是其抵抗各种载荷变形的能力。这就是术语stiffening side（加固侧）发挥作用的地方。stiffening side（加固侧）指的是结构中设计用于提供额外刚性和强度的部分，从而增强建筑物或桥梁的整体稳定性。当工程师设计结构时，他们必须考虑可能作用于结构的各种力量，例如风、地震以及材料本身的重量。为了确保结构能够承受这些力量，他们通常会结合一些作为stiffening side（加固侧）的元素。例如，在高层建筑中，建筑的核心通常充当stiffening side（加固侧），提供中央支撑，有助于均匀分配载荷，并在强风或地震活动期间保持建筑的形状。此外，stiffening side（加固侧）的设计不仅仅是增加材料；它涉及几何形状和材料特性的仔细计算和考虑。工程师使用先进的软件模拟不同设计在压力下的表现，确保stiffening side（加固侧）能够有效抵消结构中的任何潜在弱点。这在自然灾害频发的地区尤为重要，因为建筑物的完整性可能意味着安全与灾难之间的区别。除了传统的钢材和混凝土，现代工程还探索创新材料和技术，以增强stiffening side（加固侧）。例如，纤维增强聚合物由于其轻质且强度高的特性，越来越多地被使用，使得在不妨碍稳定性的情况下，能够进行更灵活的设计。这种材料科学的发展意味着建筑师和工程师可以创造出更加大胆和美观的结构，同时确保它们安全稳固。此外，stiffening side（加固侧）的概念超越了物理结构。在个人发展和心理学领域，人们可以将生活中的“加固侧”与此进行类比。正如建筑需要支撑才能屹立不倒，个体往往需要坚实的原则、价值观和支持系统来应对生活的挑战。培养韧性和强大的支持网络可以被视为发展个人的stiffening side（加固侧），让我们能够承受生活带来的压力和挑战。总之，无论是在结构工程还是个人成长的背景下，stiffening side（加固侧）的理念都发挥着重要作用。它强调了在我们的物理环境和个人生活中，力量、稳定性和支持的重要性。通过理解和应用stiffening side（加固侧）背后的原则，我们不仅可以创造更安全的建筑，还可以培养出能够应对挑战的更具韧性的个体。