hydraulic binders

简明释义

水硬性胶凝材料

英英释义

例句

1.The construction team decided to use hydraulic binders for their new project due to their quick setting time.

施工团队决定在他们的新项目中使用水硬性胶结材料，因为其快速凝固的特性。

2.The engineer recommended using hydraulic binders in the foundation to ensure stability.

工程师建议在基础中使用水硬性胶结材料以确保稳定性。

3.Many modern cement products contain hydraulic binders for enhanced performance.

许多现代水泥产品含有水硬性胶结材料以提高性能。

4.When mixed with water, hydraulic binders form a paste that hardens over time.

与水混合时，水硬性胶结材料形成一种随着时间硬化的浆料。

5.In areas prone to flooding, hydraulic binders can help create stronger and more durable structures.

在易于洪水泛滥的地区，水硬性胶结材料可以帮助建造更坚固和耐用的结构。

作文

The construction industry has evolved significantly over the years, with various materials being developed to enhance structural integrity and durability. One such material that plays a crucial role in this evolution is hydraulic binders. These are substances that, when mixed with water, can set and harden even under water, making them essential for various applications in construction and civil engineering. The most common examples of hydraulic binders include cement and lime. Understanding the importance of hydraulic binders begins with recognizing their unique properties. Unlike non-hydraulic binders, which require air to cure and harden, hydraulic binders can achieve strength and stability in damp or submerged conditions. This characteristic makes them ideal for use in underwater structures, such as bridges, dams, and foundations. For instance, during the construction of a dam, hydraulic binders are used to ensure that the concrete sets properly, even when exposed to water. Moreover, the versatility of hydraulic binders extends beyond just their application in wet environments. They are also integral in creating materials like concrete and mortar, which are foundational to modern construction practices. The ability of hydraulic binders to form strong bonds with aggregates allows for the creation of robust building materials that can withstand various environmental stresses. In addition to their practical applications, hydraulic binders also contribute to sustainability in construction. Many modern formulations of hydraulic binders incorporate recycled materials or by-products from other industries, reducing waste and promoting environmentally friendly practices. For example, fly ash, a by-product of coal combustion, can be used as a partial replacement for Portland cement in hydraulic binders, leading to lower carbon emissions during production. Furthermore, advancements in technology have led to the development of new types of hydraulic binders that offer improved performance characteristics. Innovations such as high-performance concrete and self-healing concrete utilize specialized hydraulic binders that enhance durability and longevity. These modern materials not only meet the demands of contemporary architecture but also address challenges such as climate change and resource scarcity. In conclusion, hydraulic binders are indispensable in the field of construction and civil engineering. Their ability to set and harden in wet conditions, combined with their versatility and potential for sustainable practices, makes them a vital component in building resilient structures. As the industry continues to evolve, the role of hydraulic binders will undoubtedly expand, paving the way for innovative solutions that meet the needs of future generations. Understanding and harnessing the power of hydraulic binders is essential for anyone involved in construction, from engineers to architects, as they lay the groundwork for a more sustainable and durable built environment.

建筑行业多年来经历了显著的发展，各种材料的开发旨在增强结构的完整性和耐久性。其中一种在这一演变中发挥关键作用的材料是水硬性胶结剂。这些物质与水混合后，即使在水下也能凝固和硬化，因此在建筑和土木工程的各种应用中至关重要。最常见的水硬性胶结剂包括水泥和石灰。理解水硬性胶结剂的重要性，首先要认识到它们独特的性质。与需要空气来固化和硬化的非水硬性胶结剂不同，水硬性胶结剂能够在潮湿或淹没的条件下获得强度和稳定性。这一特性使得它们在水下结构的使用中变得理想，例如桥梁、大坝和基础。例如，在大坝的建设过程中，水硬性胶结剂用于确保混凝土能够正确凝固，即便暴露在水中。此外，水硬性胶结剂的多功能性不仅限于其在潮湿环境中的应用。它们还是现代建筑实践中混凝土和砂浆等材料的核心。水硬性胶结剂与骨料形成强大结合的能力，使得可以创造出能够承受各种环境压力的坚固建筑材料。除了它们的实际应用外，水硬性胶结剂在建筑可持续性方面也起到了重要作用。许多现代配方的水硬性胶结剂包含回收材料或其他行业的副产品，从而减少废物并促进环保实践。例如，煤燃烧的副产品飞灰可以部分替代波特兰水泥，用于水硬性胶结剂中，从而降低生产过程中的碳排放。此外，技术的进步促使新型水硬性胶结剂的开发，这些新型胶结剂提供了改善的性能特点。高性能混凝土和自愈合混凝土等创新材料利用特殊的水硬性胶结剂，增强了耐用性和使用寿命。这些现代材料不仅满足当代建筑的需求，还应对气候变化和资源稀缺等挑战。总之，水硬性胶结剂在建筑和土木工程领域是不可或缺的。它们能够在潮湿条件下凝固和硬化，再加上它们的多功能性和可持续实践的潜力，使其成为构建坚固结构的重要组成部分。随着行业的不断发展，水硬性胶结剂的角色无疑将扩展，为满足未来几代人需求的创新解决方案铺平道路。理解和利用水硬性胶结剂的力量，对于任何参与建筑的人来说都是至关重要的，从工程师到建筑师，他们为更可持续和耐用的建筑环境奠定基础。