impermeable seam

简明释义

不透水层

英英释义

例句

1.The new waterproof jacket features an impermeable seam that keeps you dry in heavy rain.

这款新防水外套采用了不渗透接缝，即使在大雨中也能保持干燥。

2.During the construction of the dam, engineers ensured that every impermeable seam was properly sealed.

在大坝的建设过程中，工程师确保每个不渗透接缝都得到了妥善密封。

3.The manufacturer guarantees that the impermeable seam will last for many years without leaking.

制造商保证不渗透接缝在多年内不会漏水。

4.The tent's design includes impermeable seams to prevent water from leaking inside.

帐篷的设计包括不渗透接缝，以防止水渗入内部。

5.For outdoor gear, having impermeable seams is essential for durability and weather resistance.

对于户外装备来说，拥有不渗透接缝对耐用性和防天气性至关重要。

作文

In the realm of construction and engineering, the term impermeable seam refers to a joint or connection that prevents the passage of fluids, particularly water. This concept is crucial in various applications, including waterproofing structures, creating effective barriers in civil engineering projects, and ensuring the longevity of materials used in construction. Understanding the significance of an impermeable seam can greatly enhance the durability and functionality of a building or infrastructure. The importance of impermeable seams can be observed in several real-world scenarios. For instance, in the construction of dams, engineers must ensure that the seams between different sections of the dam are impermeable to prevent water from seeping through. If these seams were not properly sealed, it could lead to catastrophic failures, compromising the safety of the surrounding areas and causing significant environmental damage. Similarly, in the field of roofing, an impermeable seam is essential to prevent leaks that could damage the interior of a building. Roofers use various techniques and materials to create seams that are resistant to water infiltration. This is particularly important in regions prone to heavy rainfall or snow, where the risk of water damage is significantly elevated. Moreover, the concept of an impermeable seam extends beyond just physical structures. It also applies to the design of clothing and gear for outdoor activities. For example, manufacturers of waterproof jackets often utilize impermeable seams to ensure that their products keep users dry in wet conditions. These seams are typically sealed with specialized tape or adhesives that block water from penetrating through the stitching. In addition to its practical applications, the study of impermeable seams also has implications in environmental science. Engineers and scientists are increasingly focused on creating impermeable barriers to control water flow in sensitive ecosystems. For instance, when constructing wetlands or restoring natural habitats, it is vital to manage water levels effectively. By implementing impermeable seams, they can help maintain the desired hydrology of the area, supporting the flora and fauna that depend on specific moisture levels. Furthermore, the development of innovative materials has allowed for the creation of even more effective impermeable seams. Advances in technology have led to the use of synthetic materials that provide superior resistance to water infiltration compared to traditional options. This has opened new avenues for architects and engineers to explore, enabling them to design structures that are not only aesthetically pleasing but also highly functional and resilient against water damage. In conclusion, the term impermeable seam encompasses a vital aspect of construction, engineering, and environmental management. Its significance cannot be overstated, as it plays a critical role in ensuring the integrity and durability of various structures and systems. Whether in the context of buildings, outdoor gear, or ecological projects, understanding and implementing impermeable seams is essential for achieving optimal results.

在建筑和工程领域，术语不渗透缝合指的是一种连接或接缝，可防止流体（特别是水）的通过。这个概念在各种应用中至关重要，包括建筑的防水、土木工程项目中有效屏障的创建，以及确保建筑材料的耐久性。理解不渗透缝合的重要性，可以大大提高建筑物或基础设施的耐用性和功能性。不渗透缝合的重要性可以在多个现实场景中观察到。例如，在大坝的建设中，工程师必须确保大坝不同部分之间的缝合是不可渗透的，以防止水渗透。如果这些缝合没有得到妥善密封，可能会导致灾难性的失败，危及周围地区的安全，并造成重大环境损害。同样，在屋顶领域，不渗透缝合对于防止漏水至关重要，漏水可能会损坏建筑内部。屋顶工人使用各种技术和材料来创建对水渗透具有抵抗力的缝合。这在降雨或降雪量大的地区尤其重要，因为水损害的风险显著增加。此外，不渗透缝合的概念不仅仅适用于物理结构。它还适用于户外活动服装和装备的设计。例如，防水夹克的制造商通常利用不渗透缝合来确保他们的产品在潮湿的条件下能让用户保持干燥。这些缝合通常用专门的胶带或粘合剂密封，以阻止水通过缝线渗透。除了实际应用之外，不渗透缝合的研究在环境科学中也具有重要意义。工程师和科学家越来越关注创建不渗透屏障，以控制敏感生态系统中的水流。例如，在建造湿地或恢复自然栖息地时，有效管理水位至关重要。通过实施不渗透缝合，他们可以帮助维持该地区所需的水文状态，支持依赖特定湿度水平的动植物。此外，创新材料的发展使得创建更加有效的不渗透缝合成为可能。技术的进步使得合成材料的使用提供了比传统选项更优越的抗水渗透能力。这为建筑师和工程师探索新的途径打开了新局面，使他们能够设计出既美观又高度功能性和抗水损害的结构。总之，术语不渗透缝合涵盖了建筑、工程和环境管理的重要方面。它的重要性不容小觑，因为它在确保各种结构和系统的完整性和耐用性方面发挥着关键作用。无论是在建筑、户外装备还是生态项目的背景下，理解和实施不渗透缝合对实现最佳结果至关重要。