detached supersructure

简明释义

岛式上层建筑

英英释义

例句

1.During the construction phase, the team focused on the integrity of the detached superstructure to ensure safety.

在施工阶段，团队专注于独立上层结构的完整性，以确保安全。

2.In engineering, a detached superstructure can provide significant advantages in load distribution.

在工程学中，独立上层结构可以在负载分配上提供显著的优势。

3.The architect designed a stunning detached superstructure that will serve as the centerpiece of the new urban development.

建筑师设计了一座令人惊叹的独立上层结构，将作为新城市开发的中心。

4.The museum features a detached superstructure that allows for natural light to illuminate the exhibits.

博物馆设有一个独立上层结构，可以让自然光照亮展品。

5.The detached superstructure was praised for its innovative design and energy efficiency.

这座独立上层结构因其创新设计和能源效率而受到赞扬。

作文

In the realm of architecture and engineering, the term detached superstructure refers to a structural component that is independent from the main structure of a building or a system. This concept plays a crucial role in modern construction, where the integration of various elements can significantly enhance both functionality and aesthetic appeal. A detached superstructure is often designed to be self-supporting, allowing for flexibility and adaptability in design while minimizing the load on the primary structure. For instance, consider a multi-story building where the main structure comprises concrete pillars and beams. The detached superstructure could be a cantilevered balcony or an external staircase that does not rely on the main building for support. This design not only provides additional space but also creates a visually striking element that enhances the overall architectural style. The advantages of using a detached superstructure are manifold. First and foremost, it allows for better distribution of loads, which can improve the stability and durability of the entire structure. By isolating certain elements, engineers can reduce stress on the primary framework, thereby prolonging its lifespan. Furthermore, this approach can facilitate easier maintenance and repairs, as sections of the structure can be accessed without disrupting the entire system. Another significant benefit is the potential for increased creativity in design. Architects can experiment with unconventional shapes and materials, knowing that these elements do not have to conform strictly to the main structure's limitations. For example, a detached superstructure can be crafted from lightweight materials like glass or aluminum, offering a striking contrast to the more robust concrete or steel of the main building. This juxtaposition can lead to innovative designs that capture attention and inspire awe. Moreover, the use of detached superstructure can enhance the functionality of a space. In urban environments where land is at a premium, adding detached superstructures such as rooftop gardens or sky bridges can provide much-needed green spaces or connectivity without requiring extensive ground-level modifications. These additions can improve the quality of life for residents and create a more vibrant community atmosphere. However, the implementation of a detached superstructure is not without challenges. Engineers must carefully consider factors such as wind resistance, seismic activity, and thermal expansion when designing these components. Proper anchoring and connection to the main structure are essential to ensure safety and performance. Additionally, the cost of materials and construction can increase when incorporating complex designs, which may pose budgetary constraints for some projects. In conclusion, the concept of detached superstructure represents a fascinating intersection of creativity and engineering. It allows architects and builders to push the boundaries of traditional construction methods, resulting in innovative and functional designs. As urban landscapes continue to evolve, the importance of detached superstructure will likely grow, leading to more dynamic and engaging built environments that cater to the needs of modern society.

在建筑和工程领域，术语detached superstructure指的是与建筑物或系统的主结构独立的结构组件。这个概念在现代建筑中起着至关重要的作用，其中各种元素的集成可以显著增强功能性和美学吸引力。detached superstructure通常设计为自支撑的，允许在设计中实现灵活性和适应性，同时最小化对主结构的负荷。例如，考虑一座多层建筑，其中主结构由混凝土柱和梁组成。detached superstructure可以是一个悬臂阳台或一个不依赖于主建筑支撑的外部楼梯。这种设计不仅提供了额外的空间，还创造了一个视觉上引人注目的元素，增强了整体建筑风格。使用detached superstructure的优点是多方面的。首先，它允许更好的负荷分配，这可以提高整个结构的稳定性和耐久性。通过孤立某些元素，工程师可以减少对主框架的压力，从而延长其使用寿命。此外，这种方法可以方便维护和修理，因为结构的某些部分可以在不干扰整个系统的情况下进行访问。另一个显著的好处是设计创意的潜力增加。建筑师可以尝试非常规形状和材料，知道这些元素不必严格遵循主结构的限制。例如，detached superstructure可以由轻质材料如玻璃或铝制成，与主建筑的更坚固的混凝土或钢材形成鲜明对比。这种对比可以导致创新设计，吸引注意力并激发敬畏。此外，使用detached superstructure可以增强空间的功能性。在城市环境中，土地稀缺，通过添加detached superstructures如屋顶花园或空中走廊，可以在不需要广泛地面修改的情况下提供急需的绿地或连通性。这些附加设施可以改善居民的生活质量，并创造一个更生动的社区氛围。然而，实施detached superstructure并非没有挑战。工程师必须在设计这些组件时仔细考虑风阻、地震活动和热膨胀等因素。适当的锚固和与主结构的连接对于确保安全和性能至关重要。此外，纳入复杂设计的材料和施工成本可能会增加，这可能对某些项目造成预算限制。总之，detached superstructure的概念代表了创造力和工程之间一个迷人的交汇点。它使建筑师和施工者能够突破传统建筑方法的界限，创造出创新和功能性的设计。随着城市景观的不断演变，detached superstructure的重要性可能会增长，导致更具动态性和吸引力的建筑环境，以满足现代社会的需求。