Glass Production and Properties PDF

Summary

This document provides an overview of glass, detailing its properties, composition, and production. It explains how glass is made from sand, highlighting the transformation from crystalline to amorphous structure. The document also discusses types of glass and their applications, touching on bone scaffolds and biomaterials.

Full Transcript

Glass
is made from liquid sand. More specifically, glass is made by heating ordinary
sand (mostly composed of silicon dioxide SiO2) until it melts and turns into a
liquid. The molten sand is allowed to cool, and it turns into a frozen liquid or an
amorphous solid.
An amorphous solid can be considered to have a random arrangement of atoms.
It lacks long-range order found in crystalline solids.
Historically the most common and familiar form of glass is clear (optically
transparent) silica glass (or silicate glass) which is composed largely of silicon
dioxide (SiO2). In fact, theoretically, any crystalline solid that can be brought to a
liquid state, can be forced into an amorphous solid state through rapid
solidification via high cooling rates. This is easily observable by recognizing that
quartz, a very common crystalline solid, has the same composition as silica glass
(SiO2) but was cooled slowly enough to form long-range order.
 The glass making process:
In the past, glass was made by heating sand to 3090°F (approximately 1700 °C)
turning it into a molten liquid that is then shaped into glass products. When the
molten sand cools, there’s a significant transformation in the material’s molecular
structure. The change is from the crystalline structure of sand to the amorphous
structure of glass.
https://www.youtube.com/watch?v=UOwk2QIfDqY&list=WL&index=74

Today, glass is made by mixing sand with sodium carbonate lowering the melting
point of silica. However, this process also makes the soda-glass mixture water-
soluble. Therefore, limestone or calcium carbonate is often added to the mix to
prevent the glass from dissolving and to make it waterproof.

The modern glass making process also involves using several additives with silica
mixture to give different properties within the glass, such as strength, conductivity,
color, etc.
Depending upon composition, it can be made stronger than steel or soluble in water
 All of the most important glasses are based on silica SiO2. Two glasses
of special interest are soda-lime glass, used in windows and bottles,
with composition 70SiO2.10CaO.15Na2O, and borosilicate glass, used
in cooking and chemical glassware, with composition
80SiO2.15B2O3.5Na2O.
Oxides that form glasses are known as network formers. Common
examples are SiO2, B2O3, GeO2, and P2O5.
Glass can have other additives such as Na, K, B, and others. This is
done to modify the properties of the glass and make it more suitable
for human use.
 Bone Scaffolds
Traditionally, bioactive glasses have been used to fill and restore
bone defects. More recently, this category of biomaterials has
become an emerging research field for bone tissue engineering
applications.
https://www.youtube.com/watch?v=_dM9uB0jgrM