synthetic glass

简明释义

有机玻璃

英英释义

例句

1.Using synthetic glass (合成玻璃) in car windows can enhance safety and reduce weight.

在汽车窗户中使用synthetic glass（合成玻璃）可以提高安全性并减少重量。

2.Architects are increasingly using synthetic glass (合成玻璃) for modern building facades due to its lightweight properties.

由于重量轻，建筑师越来越多地在现代建筑外立面中使用synthetic glass（合成玻璃）。

3.The laboratory developed a new type of synthetic glass (合成玻璃) that is resistant to scratching.

实验室开发了一种新的synthetic glass（合成玻璃），具有抗刮擦的特性。

4.The eyeglasses are made with synthetic glass (合成玻璃) that provides UV protection.

这些眼镜是用提供紫外线保护的synthetic glass（合成玻璃）制作的。

5.The new smartphone features a screen made of synthetic glass (合成玻璃) that is more durable than traditional glass.

这款新智能手机的屏幕采用了更耐用的synthetic glass（合成玻璃）。

作文

In recent years, the use of synthetic glass has gained significant attention in various industries, ranging from architecture to electronics. Unlike traditional glass, which is made from natural materials like silica sand, synthetic glass is engineered through chemical processes to achieve specific properties that cater to modern needs. This innovation not only enhances the performance of glass products but also offers a more sustainable alternative to conventional glass manufacturing. As we delve deeper into the world of synthetic glass, it is essential to understand its composition, advantages, and applications.The primary component of synthetic glass is often a polymer or a combination of polymers that can be manipulated at the molecular level. This allows manufacturers to create glass-like materials that are lighter, shatter-resistant, and more flexible than their traditional counterparts. For instance, polycarbonate and acrylic are two commonly used types of synthetic glass. They are widely utilized in applications where safety and durability are paramount, such as in the production of eyewear lenses, safety goggles, and even in the automotive industry for windows and windshields.One of the most significant advantages of synthetic glass is its ability to be customized for specific uses. Manufacturers can alter the refractive index, transparency, and color of synthetic glass to meet the requirements of different applications. This versatility makes it an attractive option for designers and engineers who seek innovative solutions in their projects. For example, in architecture, synthetic glass can be produced in various shades and textures, allowing architects to create stunning facades that enhance the aesthetic appeal of buildings while providing energy efficiency.Moreover, synthetic glass is often more environmentally friendly compared to traditional glass. The production process typically requires less energy and generates fewer emissions. Additionally, because synthetic glass can be recycled more easily than conventional glass, it contributes to a circular economy. This eco-friendliness aligns with the growing global emphasis on sustainability and environmental responsibility, making synthetic glass a preferred choice for many companies committed to reducing their carbon footprint.In the realm of technology, synthetic glass plays a crucial role in the development of advanced devices. For instance, the screens of smartphones and tablets are often made from specialized synthetic glass that offers high durability and scratch resistance. This ensures that devices remain functional and visually appealing over time. Furthermore, synthetic glass is increasingly being used in optical applications, such as lenses for cameras and microscopes, where clarity and precision are essential.Despite its numerous benefits, there are challenges associated with synthetic glass that must be addressed. For example, some types of synthetic glass may be prone to scratching or yellowing over time, which can affect their longevity and appearance. Ongoing research and development efforts aim to improve the properties of synthetic glass, ensuring that it meets the evolving demands of consumers and industries alike.In conclusion, synthetic glass represents a remarkable advancement in material science, offering a range of benefits that traditional glass cannot match. Its customizable nature, environmental advantages, and diverse applications make it a valuable asset in various fields. As technology continues to evolve, the potential for synthetic glass to revolutionize industries and contribute to sustainable practices is immense. Understanding and embracing this innovative material will undoubtedly shape the future of design and manufacturing.

近年来，合成玻璃在建筑、电子等各个行业中引起了显著关注。与传统玻璃不同，传统玻璃是由天然材料如二氧化硅砂制成的，而合成玻璃则是通过化学工艺工程化而成，以实现符合现代需求的特定性能。这一创新不仅提升了玻璃产品的性能，还提供了比传统玻璃制造更可持续的替代方案。当我们深入探讨合成玻璃的世界时，理解其组成、优势和应用是至关重要的。合成玻璃的主要成分通常是聚合物或聚合物组合，这些材料可以在分子水平上进行操控。这使得制造商能够创造出比传统玻璃更轻、更抗碎、更灵活的玻璃状材料。例如，聚碳酸酯和丙烯酸是两种常用的合成玻璃类型。它们被广泛用于安全性和耐用性至关重要的应用中，例如眼镜镜片、安全护目镜，甚至在汽车工业中用于窗户和挡风玻璃。合成玻璃最显著的优势之一是其能够为特定用途定制。制造商可以改变合成玻璃的折射率、透明度和颜色，以满足不同应用的要求。这种多样性使得它成为设计师和工程师寻求创新解决方案时的一个有吸引力的选择。例如，在建筑领域，合成玻璃可以以各种色调和纹理生产，使建筑师能够创造出令人惊叹的外立面，既增强建筑的美学吸引力，又提供能源效率。此外，与传统玻璃相比，合成玻璃通常更环保。生产过程通常需要更少的能源，并产生更少的排放。此外，由于合成玻璃比传统玻璃更容易回收，它有助于循环经济。这种环保特性与全球对可持续性和环境责任的日益重视相一致，使得合成玻璃成为许多致力于减少碳足迹的公司的首选。在技术领域，合成玻璃在先进设备的发展中发挥着关键作用。例如，智能手机和平板电脑的屏幕通常由专门的合成玻璃制成，具有高耐用性和抗刮擦性。这确保了设备在使用过程中保持功能和视觉吸引力。此外，合成玻璃越来越多地用于光学应用，如相机和显微镜的镜头，在这些应用中，清晰度和精确度至关重要。尽管合成玻璃有众多优点，但仍然存在一些挑战必须解决。例如，一些类型的合成玻璃可能容易划伤或随时间变黄，这可能影响其耐用性和外观。持续的研究和开发工作旨在改善合成玻璃的性能，确保其满足消费者和各行业不断变化的需求。总之，合成玻璃代表了材料科学的一项显著进步，提供了一系列传统玻璃无法匹敌的好处。其可定制的特性、环保优势和多样化的应用使其在各个领域成为一种宝贵资产。随着技术的不断发展，合成玻璃在革命性地改变行业和促进可持续实践方面的潜力巨大。理解和接受这种创新材料无疑将塑造设计和制造的未来。