Glass Melting Point – Learn Everything about Melting Glass

Like any other material, temperature affects various properties of glass. That is, it can transition from solid, semi-liquid to liquid form.

In this guide, you will find all the information about glass melting temperature.

What is Glass Melting Point?

Glass, like other substances, changes its state from solid to liquid when you expose it to high temperatures.

The melting point of glass is not a definite figure but rather a range of temperatures. This is because glass is not a pure substance; it is a mixture of components such as silica, lime, and soda.

The glass melting point ranges between 1400◦C to 1600◦C. It is however important to note that this temperature depends on the type and composition of the glass.

Glass Structure
Glass Structure

Melting Temperature for Different Types of Glasses

The melting temperature varies for different types of glass depending on their distinct properties as well as the components.

The melting point acts as a distinct characteristic that forms the potential and properties of specific glass types.

Discussed below are melting points for various types of glass.

  1. Soda lime glass- This type of glass is the most common and widely used around the around. Its melting point ranges between 1500◦C-1600◦ Soda lime glass comprises compounds such as silica, lime, and soda which are responsible for this melting temperature range. This relatively low melting point makes this type of glass most suitable for the mass production of household items.
  2. Borosilicate glass- This type of glass exhibits a relatively higher melting temperature range of 1640◦C to 1710◦ This is brought on by its excellent thermal expansion as well as its low coefficient of thermal expansion. This temperature range makes this type of glass well-suited for high-temperature applications such as laboratory equipment and cookware.
  3. Fused silica glass- Also referred to as quartz glass, this type of glass exhibits a melting point of 1700◦ This can be attributed to its perfect thermal stability along with its pure nature. Fused silica glass is perfect for manufacturing optical items and high-precision scientific equipment such as microscopes.
  4. Aluminosilicate glass- This glass type boasts a higher melting point than others. Its melting temperature is 2000◦C and above. It exhibits excellent properties such as high thermal shock resistance and mechanical strength. This makes it the undeniable choice for manufacturing high-performance windows as well as aerospace parts.
  5. Lead glass- The melting point for this type of glass is 800◦C to 900◦ This relatively low range of temperatures is because of lead which is a main component in this glass type. Lead glass has a malleable nature which makes it perfect for mass production of complex glassware and décor items.
Different Types of Glass Sheet
Different Types of Glass Sheet

Factors Affecting Melting Point of Glass 300

The glass melting point can be influenced by multiple factors:

Chemical Composition

This is a pivotal factor in determining the glass melting point. For instance, different types of glass such as soda lime, lead glass, fused silica, and borosilicate all have distinctive melting points.                                                                For example, the incorporation of lead into the glass components causes a significant drop in the melting point of lead glass as well as the thermal resistance.


The presence of both impurities and additives in glass composition can notably influence the melting point.
Additives such as color, metals, and strengthening agents might cause the melting point to go down.

On the other hand, impurities alter the composition of glass and interfere with the thermal properties, thereby affecting the melting patterns.

Pressure and Atmosphere

External factors such as pressure and atmosphere are also key factors in determining glass melting point.
Variations in these phenomena during the melting process can cause a rise or drop in the melting point.

Heating Rate and Duration

A glass that is heated gradually for a prolonged time will have a different melting point compared to one heated rapidly for a short time.
Applying high temperatures gradually allows the glass to melt uniformly as opposed to rapid heating.
The latter can cause uneven melting or in some cases thermal stress which can potentially increase the melting point.

Thermal History

Previous exposure to heating and cooling patterns can either lower or increase the melting point of the glass.
These cycles can alter the thermal properties and composition thereby affecting the melting point.


During the heating process crystallization may occur at specific intervals. This can influence the thermal response of the glass and in turn, affect the melting point.

Glass Melting Point vs Glass Transition Temperature

Glass Transition Temperatur Illustrated
Glass Transition Temperatur Illustrated

Glass transition temperature can be defined as the temperature at which glass transitions from a hard state to a rubbery state.

This is the main difference between glass melting point which is the temperature at which solid glass transforms into a liquid state.

Phases Glass goes through during the Melting Process

Glass goes through the following phases during the melting process:

  • The silicate formation phase is the first stage of the melting process. It is a series of changes, both physical and chemical that happen rapidly under the temperature range of 800C-1000C after you lace the batch in the furnace. Examples of these changes include; the heating of powder, salt decomposition, water evaporation, polycrystalline transformation and so much more.
  • Glass liquid transformation phase- when you expose glass material to temperatures of 1200C, various types of silicates start forming. This happens until the temperature gets to 1300 C, then the glass starts transitioning into liquid form.
  • Glass liquid refining phase- when the previous phase is complete, many bubbles form on the molten glass. This stage involves eliminating those bubbles, also known as the clarification phase. It is important to note that this process is carried out under high temperatures. This is because increased temperature rapidly decreases the viscosity of the glass material.
  • Glass liquid homogenization phase- After the glass has reached its molten state, the temperature and the chemical composition become different. Thus, the need for homogenization arises. The two main principles for this stage are convection and diffusion.
  • Glass liquid cooling phase- For the glass formation to happen, the molten glass be cooled to the specific forming temperature.

In general, the forming temperature is usually 200-300C which is relatively lower than the refining(clarification) temperature.

How to Determine Glass Melting Temperature

As mentioned earlier, the melting point is not a distinctive figure but rather a range of temperature. This temperature usually ranges between 1400 – 1600C.

The determination of the melting point of glass is quite simple. It involves heating a sample of the glass at controlled temperatures for some time.

The temperature at which the glass turns flow from solid state to molten(liquid) is what is considered as the glass melting temperature.

It is paramount to note that the melting temperature can be altered by impurities and additives.

Importance of Glass Melting Temperature in the Manufacturing Process

In the world of glass manufacturing, it is essential to know the precise melting point to control the fabrication process and achieve the desired results.

The transition of glass from a solid state to a liquid state allows manufacturers to understand the thermal properties and behavior of different types of glass.

Equipped with this knowledge, manufacturers can then refine production methods and come up with high-quality glass products.

Moreover, the knowledge of glass melting point is pivotal in the development and advancement of scientific and technological advancements.

Best Ways of Melting Glass

There exist various ways to melt glass which are mostly dependent on the final product. The type and quantity of glass being produced are also dependent on the utility costs.

Pot furnace- in this way of melting, glass is placed and melted in different pots. Said pot furnace does not involve contact between the pot and the grass. The pots are made of shiny and reflective surfaces that exhibit resistance to glass attack at high temperatures.

One pot can hold up to 700 kg of glass. Another significant advantage of this furnace is that you can use it to melt different types of glass.

Other best ways of melting glass include; induction heating, flame working, and rarely microwave method.

Molten Glass
Molten Glass

How Glass Properties Change During Melting Process

Glass in its natural form exhibits properties such as exceptional thermal properties, good light transmission, and corrosion resistance, among others.

When exposed to high temperatures, glass like other substances transitions into a liquid state and develops a new set of unique properties.

These include:

  • Amorphous shape-Molten glass does not possess any definite shape which allows it to be shaped into various forms.
  • Excellent heat conduction- this property implies that molten glass loses a negligent amount of energy throughout the heating and cooling processes.
  • Vitrification- while still in its molten state, it flows very easily like water but at the same time cools down and assumes different shapes and forms.
  • High-stress resistance and thermal shock- this property makes molten glass best suited for applications with extreme environmental conditions.

As you can see, there are many variables affecting glass melting temperature. Additionally, glass also undergoes various transformations during the melting process.

For all your glass parts, Weprofab is a partner you can trust.

More Resources:

Glass Manufacturing Process – Source: Weprofab

Glass Batching – Source: Weprofab

Tempering Glass – Source: Weprofab

Melting Point of Glass – Source: Physics Book

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