hinged pier

简明释义

绞接式墩

英英释义

例句

1.Engineers decided to implement a hinged pier to accommodate thermal expansion in the structure.

工程师决定实施一个铰接墩以适应结构中的热膨胀。

2.The hinged pier design was chosen for its flexibility in adapting to water level changes.

由于其适应水位变化的灵活性，选择了铰接墩设计。

3.During the construction, the team faced challenges with the alignment of the hinged pier.

在施工过程中，团队面临着铰接墩对齐的挑战。

4.The bridge design features a hinged pier, which allows for better movement during seismic events.

这座桥的设计采用了铰接墩，可以在地震事件中更好地移动。

5.A hinged pier can significantly reduce stress on the bridge during heavy traffic.

在交通繁忙时，铰接墩可以显著减少桥梁上的压力。

作文

In the world of civil engineering and architecture, the term hinged pier refers to a type of structural support that is designed to accommodate movements caused by various forces, such as wind, seismic activity, and thermal expansion. A hinged pier serves as a crucial element in the construction of bridges and large buildings, allowing for flexibility and stability in the overall design. This innovative approach to structural design is particularly important in regions prone to earthquakes or high winds, where traditional fixed supports may not provide adequate safety or performance.The concept of a hinged pier is rooted in the need for structures to adapt to dynamic loads. Unlike conventional piers that are rigidly anchored to the ground, a hinged pier incorporates a pivot point or hinge mechanism that allows it to rotate or move in response to external forces. This flexibility helps to dissipate energy during an earthquake or strong wind event, reducing the risk of structural failure. Engineers often use materials such as reinforced concrete or steel in the construction of hinged piers, ensuring both strength and resilience.One of the most notable advantages of using a hinged pier is its ability to enhance the longevity of a structure. By allowing for controlled movement, hinged piers can minimize stress on the building or bridge, leading to less wear and tear over time. This is particularly beneficial for infrastructure that must endure heavy traffic loads or environmental challenges. Furthermore, the use of hinged piers can lead to cost savings in maintenance and repair, as structures built with these supports are less likely to suffer from catastrophic failures.In addition to their practical benefits, hinged piers also offer aesthetic possibilities in architectural design. The flexibility in their construction allows architects to create more dynamic and visually interesting forms. For instance, bridges that incorporate hinged piers can have graceful curves and unique shapes that enhance their visual appeal while still maintaining functionality. This blend of form and function is essential in modern architecture, where the appearance of a structure is just as important as its structural integrity.However, designing a hinged pier requires careful consideration and expertise. Engineers must take into account various factors, including soil conditions, load requirements, and potential environmental impacts. The design process often involves complex calculations and simulations to ensure that the hinged pier will perform as intended under a range of conditions. Collaboration between engineers and architects is vital to achieve a cohesive design that meets both structural and aesthetic goals.In conclusion, the hinged pier represents a significant advancement in the field of structural engineering. Its ability to provide flexibility and stability makes it an ideal choice for modern construction projects, particularly in areas vulnerable to natural forces. As cities continue to grow and evolve, the use of innovative solutions like hinged piers will play a key role in creating safe, durable, and aesthetically pleasing infrastructure. Understanding the importance and functionality of hinged piers is essential for anyone involved in the fields of engineering and architecture, as they pave the way for the future of resilient design.

在土木工程和建筑领域，短语hinged pier指的是一种结构支撑，旨在适应由各种力量引起的运动，例如风、地震活动和热膨胀。hinged pier作为桥梁和大型建筑物建设中的关键元素，允许整体设计中的灵活性和稳定性。这种创新的结构设计方法在地震或强风频繁的地区尤为重要，因为传统的固定支撑可能无法提供足够的安全性或性能。hinged pier的概念源于结构适应动态载荷的需求。与刚性锚定到地面的常规支柱不同，hinged pier包含一个枢轴点或铰链机制，使其能够在外部力量作用下旋转或移动。这种灵活性有助于在地震或强风事件期间耗散能量，从而降低结构失效的风险。工程师通常在hinged piers的施工中使用钢筋混凝土或钢材等材料，以确保强度和韧性。使用hinged pier的一个显著优势是它能够增强结构的使用寿命。通过允许受控运动，hinged piers可以最小化对建筑物或桥梁的压力，从而减少随着时间推移的磨损。此外，使用hinged piers可以在维护和修理方面节省成本，因为采用这些支撑的结构不太可能遭受灾难性的故障。除了实用益处之外，hinged piers在建筑设计中还提供了美学可能性。其施工的灵活性使建筑师能够创造出更具动态性和视觉趣味的形式。例如，采用hinged piers的桥梁可以拥有优雅的曲线和独特的形状，从而增强其视觉吸引力，同时仍保持功能性。这种形式与功能的结合在现代建筑中至关重要，在这里，结构的外观与其结构完整性同样重要。然而，设计hinged pier需要仔细的考虑和专业知识。工程师必须考虑各种因素，包括土壤条件、载荷要求和潜在的环境影响。设计过程通常涉及复杂的计算和模拟，以确保hinged pier在一系列条件下按预期性能。工程师与建筑师之间的合作对于实现满足结构和美学目标的统一设计至关重要。总之，hinged pier代表了结构工程领域的重要进步。它提供的灵活性和稳定性使其成为现代建筑项目的理想选择，特别是在易受自然力量影响的地区。随着城市的不断发展和演变，像hinged piers这样的创新解决方案将在创建安全、耐用和美观的基础设施中发挥关键作用。理解hinged piers的重要性和功能对于任何参与工程和建筑领域的人来说都是必不可少的，因为它们为韧性设计的未来铺平了道路。