stiffener
简明释义
n. 加固物;[建] 加劲杆;刚性元件;兴奋剂
英英释义
A stiffener is a material or structural element used to reinforce or support a structure, making it more rigid and less prone to bending or deformation. | 加固件是一种用于增强或支撑结构的材料或结构元素,使其更加坚固,减少弯曲或变形的可能性。 |
单词用法
添加加固材料 | |
安装加固材料 | |
作为加固材料 | |
金属加固材料 | |
塑料加固材料 | |
柔性加固材料 |
同义词
反义词
| 灵活的 | 这种面料很灵活,可以轻松塑形。 | ||
| 软化剂 | A softener is often used in laundry to make clothes feel softer. | 软化剂通常用于洗衣,使衣物感觉更柔软。 |
例句
1.The stiffener layout optimization of thin walled structures is addressed in this article using a topology optimization method.
采用拓扑优化方法研究了薄壁结构的加筋布局优化问题。
2.Force transfer mechanism of the vertical stiffener joint model with only tensile beam flange is analyzed.
本文对外肋环板节点梁翼缘受拉模型的传力机理进行了分析。
3.For co-curing specimens, failures happen at the interface of the skin and stiffener, and the core regions of the stringer also fail.
共固化试验件损伤主要发生在筋条蒙皮连接界面,且填充区也发生破坏;
4.Bulwark plate to be thickened and stiffener to be added in way of mooring hole.
在设置导缆孔处舷墙板增加板厚和加强筋。
5.There is a vertical waterproof longitudinal bulkhead between the two shell-junctures, it reinforced by some stiffener.
在两个圆弧柱壳连结处布置某种型式的垂向水密纵舱壁进行加强。
6.The design parameters of chamber and stiffener of hollow blade model were analyzed.
对空心叶片模型型腔和加强筋结构设计参数进行了分析;
7.A stiffener assembly for use with testing devices is provided herein.
提供了用于与测试器件一起使用的加固器组件。
8.The Western European Union, set up in 1948, was a cold war spine-stiffener.
该组织成立于1948年,在冷战时期令东西关系雪上加霜。
9.To prevent bending, we added a stiffener to the plastic sheet.
为了防止弯曲,我们在塑料板上添加了一个加固件。
10.In sewing, a stiffener is often used to give structure to fabric items like collars and cuffs.
在缝纫中,加固剂通常用于给衣物如领子和袖口提供结构。
11.The engineer recommended a metal stiffener to enhance the strength of the beam.
工程师建议使用金属加固件来增强梁的强度。
12.The boat's hull was reinforced with a fiberglass stiffener for added durability.
船体用玻璃纤维加固件进行了加固,以增加耐用性。
13.The architect included a stiffener in the design to ensure the building could withstand strong winds.
建筑师在设计中加入了一个加固件以确保建筑能够抵御强风。
作文
In the world of engineering and construction, the term stiffener (加固件) plays a crucial role in ensuring structural integrity and stability. A stiffener is a component used to reinforce or strengthen a structure, often found in beams, plates, and other load-bearing elements. The primary function of a stiffener is to prevent buckling and deformation under load, which is essential for maintaining the safety and longevity of a structure.For instance, when designing a bridge, engineers must consider various factors such as the weight of vehicles, environmental conditions, and the materials used. To enhance the strength of the bridge's girders, they may incorporate stiffeners at strategic locations. These stiffeners can be made of steel or other durable materials, and they are typically welded or bolted to the main structural elements. By adding these reinforcements, the engineers can significantly increase the load-carrying capacity of the bridge without adding excessive weight.Moreover, stiffeners are not only limited to large structures like bridges. They are also commonly used in buildings, aircraft, and ships. In the aerospace industry, for example, the fuselage of an aircraft requires careful consideration of weight and strength. Engineers use stiffeners within the fuselage to ensure that it can withstand the forces experienced during flight while keeping the overall weight as low as possible. This delicate balance is vital for the performance and efficiency of the aircraft.Another application of stiffeners can be seen in the construction of walls and panels. In many cases, walls need to support additional loads, such as insulation, cladding, or even the weight of the roof. By incorporating stiffeners into the wall design, builders can create a more robust structure that resists bending and warping over time. This is especially important in areas prone to high winds or seismic activity, where structural failure could have catastrophic consequences.In addition to their mechanical benefits, stiffeners also contribute to the aesthetic aspects of a design. For architects and designers, the integration of stiffeners can provide opportunities for creative expression. By strategically placing stiffeners, they can create visually appealing patterns and shapes that enhance the overall appearance of a building or structure. This fusion of functionality and aesthetics is what makes modern architecture so fascinating.In conclusion, the concept of a stiffener (加固件) is fundamental in various fields, particularly in engineering and construction. Its ability to reinforce structures and prevent deformation under load is indispensable for ensuring safety and durability. As technology advances, the design and implementation of stiffeners continue to evolve, allowing for more innovative and efficient solutions in building and infrastructure development. Understanding the importance of stiffeners helps us appreciate the complexity and ingenuity involved in creating the structures we rely on every day.
在工程和建筑的世界中,术语stiffener(加固件)在确保结构完整性和稳定性方面发挥着至关重要的作用。stiffener是用于增强或加固结构的组件,通常出现在梁、板和其他承重元素中。stiffener的主要功能是防止在负载下的屈曲和变形,这对于保持结构的安全性和耐久性至关重要。例如,在设计桥梁时,工程师必须考虑各种因素,如车辆的重量、环境条件和所用材料。为了增强桥梁横梁的强度,他们可能会在战略位置上加入stiffeners。这些stiffeners可以由钢或其他耐用材料制成,通常焊接或螺栓连接到主要结构元素上。通过添加这些加固件,工程师可以显著提高桥梁的承载能力,而不会增加过多的重量。此外,stiffeners不仅限于大型结构,如桥梁。它们也常见于建筑、飞机和船舶。在航空航天工业中,例如,飞机的机身需要仔细考虑重量和强度。工程师在机身内部使用stiffeners,以确保其能够承受飞行过程中遇到的力量,同时将整体重量保持在尽可能低的水平。这种微妙的平衡对飞机的性能和效率至关重要。另一个stiffeners的应用可以在墙壁和面板的建造中看到。在许多情况下,墙壁需要支撑额外的负载,例如绝缘层、包层或甚至屋顶的重量。通过在墙体设计中加入stiffeners,建筑商可以创造出更坚固的结构,抵抗随时间推移而产生的弯曲和变形。这在风力强或地震活动频繁的地区尤为重要,因为结构失效可能会导致灾难性后果。除了机械上的好处,stiffeners还对设计的美学方面有所贡献。对于建筑师和设计师来说,集成stiffeners可以提供创造性表达的机会。通过战略性地放置stiffeners,他们可以创造出视觉上吸引人的图案和形状,从而增强建筑或结构的整体外观。这种功能与美学的融合使现代建筑变得如此迷人。总之,stiffener(加固件)的概念在各个领域,尤其是工程和建筑中是基础性的。其增强结构和防止在负载下变形的能力对确保安全和耐久性至关重要。随着技术的进步,stiffeners的设计和实施继续发展,使建筑和基础设施开发中的创新和高效解决方案成为可能。理解stiffeners的重要性有助于我们欣赏创建我们每天依赖的结构所涉及的复杂性和创造力。
