waterglass

简明释义

英[ˈwɔːtərˌɡlæs]美[ˈwɔːtərˌɡlæs]

n. 水玻璃；硅酸纳

英英释义

单词用法

同义词

反义词

例句

1.The el cts of chemical composition of waterglass on the compressive strength and pore structure of alkali slag cement paste were investigated.

分析了水玻璃化学组成对碱矿渣水泥浆体抗压强度和孔结构的影响。

2.Alkali slag cement paste achieved the highest strength only when the Na2O and SiO2 of waterglass were around a certain content.

只有当水玻璃中的氧化纳和二氧化硅在一定范围内才能获得高强度碱矿渣水泥浆体。

3.The el cts of chemical composition of waterglass on the compressive strength and pore structure of alkali slag cement paste were investigated.

分析了水玻璃化学组成对碱矿渣水泥浆体抗压强度和孔结构的影响。

4.Waterglass is replaced by an organic stabiliser in order to ensure good spinnability.

水玻璃，取而代之的是一个有机的稳定剂，以确保良好的可纺性。

5.The rapid developing of waterglass sand gives out a lot of new questions.

随着水玻璃砂的应用迅速扩大，出现了许多新问题。

6.They have laid down all the eggs in waterglass.

他们把所有的蛋都涂上了水玻璃。

7.I poured some juice into a waterglass.

我把一些果汁倒入一个水杯。

8.The waiter brought us a waterglass of sparkling water.

服务员给我们带来了一个水杯的气泡水。

9.He prefers a tall waterglass for his smoothies.

他喜欢用高高的水杯喝奶昔。

10.After the workout, I filled my waterglass with cold water.

锻炼后，我用冷水装满了我的水杯。

11.She always drinks her tea from a fancy waterglass.

她总是从一个精美的水杯中喝茶。

作文

In the world of science and art, the term waterglass refers to a unique substance known as sodium silicate. This compound is often used in various applications, from construction to crafting. Understanding the properties and uses of waterglass can enhance our appreciation for its versatility. In this essay, we will explore the different aspects of waterglass, including its chemical composition, practical applications, and significance in both industrial and artistic contexts.Firstly, waterglass is primarily composed of silica (SiO2) and sodium oxide (Na2O). When these two elements are combined with water, they form a viscous liquid that can harden into a glass-like solid upon drying. This property makes waterglass an excellent binding agent, which is why it is widely used in construction materials such as cement and concrete. The durability of structures built with waterglass is enhanced by its ability to resist moisture and prevent corrosion, making it a valuable resource in modern architecture.Moreover, waterglass has applications beyond construction. Artists have discovered its potential in various creative processes. For example, in ceramics, waterglass can be used as a glaze that adds a glossy finish to pottery. When applied to clay, it forms a protective layer that not only enhances the aesthetic appeal but also improves the durability of the finished product. This artistic use of waterglass showcases its versatility and importance in the world of craftsmanship.Additionally, waterglass plays a significant role in the preservation of historical artifacts. Museums and conservators often utilize this compound to stabilize fragile items, such as ancient manuscripts and textiles. By applying waterglass, conservators can create a protective barrier that shields these artifacts from environmental damage, ensuring their longevity for future generations to appreciate.In the realm of science, waterglass is also employed in various chemical processes. It serves as a reagent in the synthesis of different compounds, contributing to advancements in materials science and chemistry. Researchers are continually exploring new ways to utilize waterglass, leading to innovative solutions in fields such as nanotechnology and environmental science.Furthermore, the environmental benefits of waterglass cannot be overlooked. As a non-toxic and biodegradable material, it offers a sustainable alternative to many synthetic chemicals used in industry. Its ability to bind with other materials allows for the reduction of waste, making it an eco-friendly choice for manufacturers looking to minimize their environmental impact.In conclusion, the term waterglass encompasses a wide range of applications and significance across various fields. From its role in construction and art to its contributions to scientific research and environmental sustainability, waterglass proves to be an invaluable substance. Understanding the multifaceted nature of waterglass allows us to appreciate its importance in our daily lives and encourages further exploration of its potential in future innovations. Whether you are an artist, scientist, or simply someone curious about the materials that surround us, recognizing the value of waterglass can inspire a deeper connection to the world around us.

在科学和艺术的世界中，术语水玻璃指的是一种独特的物质，称为硅酸钠。这种化合物在从建筑到工艺等各种应用中被广泛使用。理解水玻璃的性质和用途可以增强我们对其多功能性的欣赏。在这篇文章中，我们将探讨水玻璃的不同方面，包括其化学成分、实际应用以及在工业和艺术背景下的重要性。首先，水玻璃主要由二氧化硅（SiO2）和氧化钠（Na2O）组成。当这两种元素与水结合时，它们形成一种粘稠的液体，在干燥后可以硬化成玻璃状固体。这种特性使得水玻璃成为一种极好的粘合剂，这就是为什么它在水泥和混凝土等建筑材料中被广泛使用。使用水玻璃建造的结构的耐久性由于其抗湿性和防腐蚀能力而得到增强，使其成为现代建筑中的宝贵资源。此外，水玻璃在建筑之外还有其他应用。艺术家们发现了它在各种创作过程中的潜力。例如，在陶瓷艺术中，水玻璃可以用作釉料，为陶器增添光泽的外观。当涂抹在粘土上时，它形成一层保护膜，不仅增强了美学吸引力，还提高了成品的耐用性。这种艺术上的使用展示了水玻璃的多功能性和在手工艺世界中的重要性。此外，水玻璃在保护历史文物方面也发挥着重要作用。博物馆和保护者常常利用这种化合物来稳定易碎物品，如古代手稿和纺织品。通过施加水玻璃，保护者可以创建一个保护屏障，保护这些文物免受环境损害，确保它们的持久性，让未来的世代得以欣赏。在科学领域，水玻璃也被用于各种化学过程。它作为试剂在不同化合物的合成中发挥作用，为材料科学和化学的发展做出贡献。研究人员不断探索利用水玻璃的新方法，推动纳米技术和环境科学等领域的创新解决方案。此外，水玻璃的环境益处也不容忽视。作为一种无毒且可生物降解的材料，它为许多工业中使用的合成化学品提供了一种可持续的替代品。它与其他材料的结合能力使得废物减少，使其成为制造商在寻求最小化环境影响时的环保选择。总之，术语水玻璃涵盖了各个领域广泛的应用和重要性。从其在建筑和艺术中的作用到其对科学研究和环境可持续性的贡献，水玻璃证明是一种不可或缺的物质。理解水玻璃的多面性使我们能够欣赏其在日常生活中的重要性，并鼓励进一步探索其在未来创新中的潜力。无论你是艺术家、科学家，还是只是对周围材料感到好奇的人，认识到水玻璃的价值都能激发我们与周围世界更深的联系。