Abstract: Glass is a versatile material with a rich history and a profound impact on modern society, playing an integral role in various industries and applications. It has been used for thousands of years, evolving from ancient decorative objects to becoming a cornerstone of contemporary technology and construction. Glass is chemically classified as an amorphous solid, meaning its molecules lack the long-range order typical of crystalline solids. The primary component of most glass is silica (SiO₂), which is commonly derived from sand and combined with other compounds like sodium carbonate, calcium oxide, and alumina to modify its properties. These additional components allow manufacturers to tailor the glass for specific functions by enhancing its strength, improving its heat resistance, or adjusting its optical qualities.
Glass’s distinct characteristics, including its transparency, adaptability to different forms, resistance to chemical corrosion, and exceptional durability, have made it indispensable in a wide range of uses and applications. This paper seeks to explore the intricate chemical structure of glass and the various stages of its manufacturing process. It will also highlight glass's key advantages and contributions in fields such as construction, healthcare, and technology, showcasing its role in shaping modern life.
Keywords: Glass, amorphous solid, silica, manufacturing process, sustainability.
Title: Exploring the Chemical Composition, Production, and Uses of Glass across Industries
Author: Reem Saud AlMulaifi
International Journal of Life Sciences Research
ISSN 2348-313X (Print), ISSN 2348-3148 (online)
Vol. 12, Issue 4, October 2024 - December 2024
Page No: 11-18
Research Publish Journals
Website: www.researchpublish.com
Published Date: 24-October-2024
