stiffeners
简明释义
n. 加强剂(stiffener 的复数)
英英释义
Stiffeners are structural elements added to a material or structure to increase its rigidity and strength. | 加劲件是添加到材料或结构中的结构元素,用于增加其刚度和强度。 |
单词用法
用作加固材料 | |
安装加固件 | |
结构加固件 | |
梁的加固件 |
同义词
反义词
| 柔性材料 | 这种柔性材料允许更好的运动。 | ||
| 柔化剂 | 柔化剂通常用于使面料更舒适。 |
例句
1.The top tube is an enhanced diamond oval with ridge stiffeners that counters the side-to-side flex and torsion of even the most aggressive climb.
上管是菱形截面,增强的背脊硬度抵抗最激烈的攀登中产生的弯曲和扭转力。
2.Cyclic bending tests of a box girder with longitudinal stiffeners were also carried out.
进行了纵筋加强箱形薄壁梁模型的循环弯曲试验。
3.Edge stiffeners prevent waviness.
边缘加劲,防止波纹。
4.Examples show that by using the calculating formulas, the problems of arranging web stiffeners in structural members of gabled frames can be easily solved.
算例表明,应用所给出计算式,能较容易地解决门式刚架构件设置腹板加劲肋的问题。
5.If the toy contains wire, plastic, wood, cardboard or any other type of stiffeners they must be listed on the law label.
如果玩具包含导线,塑料、木头、纸板或者所有其他种加强筋他们必须在布标上列明。
6.Effective length of bearing stiffeners of steel girders has been taken as the web depth in the current Code for design of steel structures (GB50017-2003).
现行钢结构设计规范(GB50017- 2003)规定梁的支承加劲肋计算长度取腹板高度。
7.For the model airplane, we used plastic stiffeners to reinforce the wings.
为了模型飞机,我们使用塑料加固件来加固机翼。
8.The fabric of the dress needed some stiffeners to maintain its shape during wear.
这件裙子的面料需要一些加固件以保持穿着时的形状。
9.In construction, stiffeners are often used to prevent bending in structural beams.
在建筑中,加固件通常用于防止结构梁的弯曲。
10.The architect specified stiffeners in the walls to improve the building's overall stability.
建筑师在墙体中指定了加固件以提高建筑的整体稳定性。
11.The engineer recommended adding stiffeners to the bridge design to enhance its load-bearing capacity.
工程师建议在桥梁设计中添加加固件以增强其承载能力。
作文
In the world of engineering and construction, the term stiffeners refers to structural elements that provide additional strength and rigidity to a framework. These components are essential in ensuring that structures can withstand various loads and forces without deforming or collapsing. For instance, in steel construction, stiffeners are often used in beams and columns to enhance their load-bearing capacity. By strategically placing these reinforcements, engineers can create more efficient designs that optimize material usage while maintaining safety standards.The role of stiffeners extends beyond just steel structures; they are also crucial in the design of bridges, ships, and even aircraft. In bridges, for example, stiffeners help distribute weight evenly across the structure, preventing localized failures that could lead to catastrophic outcomes. Similarly, in shipbuilding, stiffeners are integrated into the hull to resist bending and twisting forces caused by waves and cargo loads.Moreover, the choice of materials for stiffeners is vital. Engineers must consider factors such as weight, corrosion resistance, and cost when selecting materials. Common choices include steel, aluminum, and composite materials, each offering unique benefits and challenges. For example, while steel stiffeners provide high strength, they may also add significant weight to a structure, which could be a disadvantage in certain applications.In addition to their structural benefits, stiffeners can also play a role in aesthetic design. Architects often collaborate with engineers to incorporate these elements in ways that enhance the visual appeal of a building or bridge. By creatively integrating stiffeners into the overall design, it is possible to achieve both functionality and beauty, demonstrating that engineering and art can coexist harmoniously.As technology advances, the design and implementation of stiffeners continue to evolve. Innovations such as computer-aided design (CAD) software allow engineers to simulate how different configurations of stiffeners will perform under various conditions. This capability enables more precise calculations and optimizations, leading to safer and more efficient structures.In conclusion, stiffeners are an indispensable part of modern engineering and construction. They provide the necessary support to ensure that structures remain safe and functional under various loads. Whether in buildings, bridges, or vehicles, the importance of stiffeners cannot be overstated. Their role in enhancing strength, improving safety, and contributing to aesthetic design highlights the intricate relationship between engineering principles and architectural creativity. As we continue to push the boundaries of design and technology, the significance of stiffeners will undoubtedly remain a critical focus in the field of structural engineering.
在工程和建筑的世界中,术语stiffeners指的是提供额外强度和刚度的结构元素。这些组件在确保结构能够承受各种负荷和力量而不变形或倒塌方面至关重要。例如,在钢结构中,通常在梁和柱中使用stiffeners来增强其承载能力。通过战略性地放置这些加固件,工程师可以创建更高效的设计,优化材料使用,同时保持安全标准。stiffeners的作用不仅限于钢结构;它们在桥梁、船舶甚至飞机的设计中也至关重要。例如,在桥梁中,stiffeners帮助将重量均匀分布在结构上,防止局部失效导致灾难性后果。同样,在造船中,stiffeners被集成到船体中,以抵抗波浪和货物负载造成的弯曲和扭转力。此外,选择stiffeners的材料至关重要。工程师在选择材料时必须考虑重量、耐腐蚀性和成本等因素。常见的选择包括钢、铝和复合材料,每种材料都有其独特的优点和挑战。例如,虽然钢stiffeners提供很高的强度,但它们可能会给结构增加显著的重量,这在某些应用中可能是一个缺点。除了结构性好处之外,stiffeners还可以在美学设计中发挥作用。建筑师通常与工程师合作,以方式整合这些元素,从而增强建筑或桥梁的视觉吸引力。通过创造性地将stiffeners融入整体设计,可以实现功能和美感的统一,证明工程和艺术可以和谐共存。随着技术的进步,stiffeners的设计和实施也在不断发展。计算机辅助设计(CAD)软件等创新使工程师能够模拟不同配置的stiffeners在各种条件下的表现。这种能力使得更精确的计算和优化成为可能,从而导致更安全和更高效的结构。总之,stiffeners是现代工程和建筑中不可或缺的一部分。它们提供必要的支持,以确保结构在各种负载下保持安全和功能。无论是在建筑、桥梁还是车辆中,stiffeners的重要性都不容小觑。它们在增强强度、提高安全性和促进美学设计方面的作用突显了工程原理与建筑创意之间的复杂关系。随着我们不断推动设计和技术的边界,stiffeners的重要性无疑将继续成为结构工程领域的关键焦点。
