weathertight superstructure

简明释义

风雨密上层建筑

英英释义

例句

1.The city council mandated that all new buildings must have a weathertight superstructure to enhance safety standards.

市议会规定所有新建筑必须具备weathertight superstructure以提高安全标准。

2.During the inspection, it was clear that the weathertight superstructure was well-constructed and would withstand harsh weather conditions.

在检查过程中，很明显weathertight superstructure的构造良好，能够抵御恶劣的天气条件。

3.The architect emphasized the importance of a weathertight superstructure in ensuring the longevity of the building.

建筑师强调了确保建筑物耐候性weathertight superstructure的重要性。

4.Investing in a robust weathertight superstructure can save homeowners from costly repairs in the future.

投资于坚固的weathertight superstructure可以为房主节省未来昂贵的维修费用。

5.To avoid water damage, the contractor ensured that the weathertight superstructure was completed before the rainy season.

为了避免水损害，承包商确保在雨季之前完成weathertight superstructure。

作文

In the realm of construction and architecture, the term weathertight superstructure refers to a building's upper structure that is designed to be impermeable to weather elements such as rain, wind, and snow. This concept is crucial for ensuring that the interior of a building remains dry and comfortable, regardless of external conditions. A weathertight superstructure is not just about aesthetics; it plays a vital role in the longevity and durability of a structure.To understand the importance of a weathertight superstructure, one must consider the various elements that contribute to its effectiveness. First, the choice of materials is paramount. High-quality materials that are resistant to water penetration and can withstand harsh environmental conditions are essential. For instance, modern buildings often utilize advanced waterproof membranes, high-performance sealants, and durable cladding systems. These materials work together to create a barrier that prevents moisture from entering the building.Additionally, the design of the weathertight superstructure must account for proper drainage and ventilation. Without adequate drainage systems, water can accumulate and lead to structural damage over time. Similarly, proper ventilation helps to control humidity levels within the building, further protecting against mold and mildew growth. Architects and engineers must collaborate closely to ensure that these factors are integrated into the overall design of the structure.Another critical aspect of a weathertight superstructure is its ability to withstand extreme weather events. With climate change leading to more frequent and severe storms, buildings must be designed to endure high winds and heavy rainfall. This has led to innovations in engineering practices, where structures are now built to exceed standard codes and regulations. The implementation of storm-resistant designs, such as sloped roofs and reinforced walls, can significantly enhance a building's resilience.The benefits of a weathertight superstructure extend beyond mere protection from the elements. A well-constructed, weather-resistant building can lead to significant energy savings. By preventing drafts and moisture intrusion, heating and cooling systems can operate more efficiently, resulting in lower energy bills. Furthermore, maintaining a stable indoor environment contributes to the overall comfort and health of occupants.In conclusion, the concept of a weathertight superstructure is fundamental in modern construction. It encompasses not only the materials and design but also the strategic planning required to protect buildings from the unpredictable forces of nature. As we continue to face challenges posed by climate change, the importance of creating resilient structures cannot be overstated. Investing in a weathertight superstructure is an investment in the future, ensuring safety, comfort, and sustainability for generations to come.

在建筑和建筑领域，术语weathertight superstructure指的是设计为防止雨水、风和雪等天气元素渗透的建筑上部结构。这个概念对于确保建筑内部保持干燥和舒适至关重要，无论外部条件如何。weathertight superstructure不仅仅关乎美学；它在建筑的长期性和耐久性中发挥着重要作用。要理解weathertight superstructure的重要性，必须考虑构成其有效性的各种因素。首先，材料的选择至关重要。高质量的材料能够抵抗水渗透，并能承受恶劣的环境条件，这一点非常重要。例如，现代建筑通常使用先进的防水膜、高性能密封剂和耐用的外墙系统。这些材料共同作用，形成一道屏障，防止水分进入建筑。此外，weathertight superstructure的设计必须考虑到适当的排水和通风。如果没有足够的排水系统，水可能会积聚并导致结构随着时间的推移而损坏。同样，适当的通风有助于控制建筑内的湿度水平，进一步保护免受霉菌和霉味的影响。建筑师和工程师必须紧密合作，以确保这些因素被纳入整体设计中。weathertight superstructure的另一个关键方面是其抵御极端天气事件的能力。随着气候变化导致更频繁和严重的风暴，建筑必须设计得能够承受强风和暴雨。这促使工程实践的创新，现在的结构通常建造得超出标准规范和规定。实施抗风暴设计，例如倾斜屋顶和加固墙壁，可以显著增强建筑的韧性。weathertight superstructure的好处不仅限于防止天气影响。一个建造良好、抗天气的建筑可以带来显著的节能效果。通过防止气流和湿气侵入，供暖和制冷系统可以更高效地运行，从而降低能源费用。此外，保持稳定的室内环境有助于提升居住者的整体舒适度和健康。总之，weathertight superstructure的概念在现代建筑中是基础性的。它不仅涵盖了材料和设计，还包括保护建筑免受自然不可预测力量影响所需的战略规划。随着我们继续面临气候变化带来的挑战，创造韧性结构的重要性不容忽视。投资于weathertight superstructure是对未来的投资，确保安全、舒适和可持续性，为后代造福。