Goud Smeltpunt

Gold melting point is the temperature at which it transforms from a solid state to a liquid state under standard atmospheric pressure.

This guide covers everything you need to know about the melting temperature of gold.

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What is the Melting Point of Gold

Gold has a melting point of approximately 1064°C (1948°F). At this temperature, the gold transitions from a solid to a liquid state.

Unlike other metals, gold possesses has low melting point which renders it perfect for a range of uses such as making jewelry and metallurgy.

The fact that gold stays solid at typical temperatures results in its longevity and corrosion resistance.

Gold Element
Gold Element

How is Gold Melted

If you are a gold smelter,


Make sure that the gold to be melted is thoroughly prepared, with no traces of pollutants, and in a commercially proper state.

Setting up Induction Furnace:

Configure the induction furnace following the instructions given by the manufacturer. This requires making certain that all electrical connections are reliable as well as adjusting the temperature control system.

Goud Smeltoond
Goud Smeltoond

Setting the Crucible

Put the gold in an induction furnace-compatible crucible. Confirm that the crucible has been cleaned thoroughly and is in perfect functioning condition.

Temperatuur beheer

Set the temperature management system on the induction furnace in order to achieve and keep the intended melting temperature for gold. Such a level of precision plays an essential role in industrial processes.

Melting Procedure

Switch on the induction furnace and wait for it to attain the ideal temperature. The gold inside the crucible will undergo heating by use of electromagnetic induction.


Now add-flux if desired in order to assist in the elimination of contaminants from the molten gold.

Waarneming en interpretasie

Keep a close watch on the process of melting, study the behavior of the gold, and make sure it attains a completely molten condition. Test the purity of the molten gold while making any changes that are appropriate to the procedure.

Casting and Pouring

When pouring molten gold into molds, apply the capabilities of a furnace that utilizes induction just right after the gold is completely melted. They are applied so as to be utilized in numerous procedures in manufacturing.

Molten Gold
Molten Gold

Solidification and Cooling:

Give the cast gold a moment to cool down and solidify in the molds, in accordance with the expected use, before carrying out any other procedures that include machining.

Quality Control

Examine cast gold for defects and guarantee its purity by establishing measures to ensure quality.

Finishing and Cleaning

Get rid of any leftover pollutants or flux from the final component. Complete the gold by observing the rules of the industry.

Factors Affecting the Melting Point of Gold

As you plan to melt your gold, it is important to know the various factors that may cause the deviation in the theoretical melting point.

Let’s look at some of the most common variables:


The most critical aspect impacting gold’s melting point is its purity. The melting temperature of pure gold expressed as karats is the highest. Gold alloys, which are metal blends, possess lower melting temperatures compared to pure gold.

In case any alloying element or impure substances exist in your gold, expect the melting point to change.

Alloying Components

The incorporation of alloying agents may result in the melting point of gold alloy changing. For example, you will realize that the gold-copper alloy’s melting point deviates from pure gold.


Gold’s melting point might be impacted by impurities. Even trace quantities of pollutants might alter gold’s physical features, especially its melting tendency.

Structure of the Crystal

The melting point of gold can be affected by its crystal structure. The stabilities of various forms of crystal may differ, which influences the temperature metal transforms from a solid to a liquid state.

Gold Atomic Structure
Gold Atomic Structure


Although pressure has a more significant influence on an element’s boiling point, it might also possess an effect on its melting point. Under typical circumstances, however, standard pressure variations are unlikely to substantially affect the melting point of gold.


The pace at which gold gets heated possesses the possibility of having an effect on its melting tendency. When contrasted with moderate heating, rapid heating might result in varying melting features.

Sample Dimensions and Shape

The melting point of gold can be influenced by its shapes and dimensions. When contrasted with well-defined or smaller samples, differently shaped or larger samples have differing melting tendencies.


The condition in which gold is heated might have an impact. The melting tendency of gold may be affected by variables. They include the heating technique or kind of furnace employed, and also the presence of a regulated atmosphere.


As surface area expands, the melting point of gold reduces substantially. Since smaller particulates contain a larger surface area-to-volume ratio, they possess greater surfaces of atoms that might be broken separately to melt the gold.

Compare the Boiling and Melting Points of Gold

Gold undergoes both boiling and melting transitions.

This is where it melts at an approximate temperature of 1064°C (1948°F). On the other hand, you will realize that the boiling point or temperature is slightly higher. Under normal circumstances, gold boils at an approximate temperature of about 2856°C (5173°F).

Gold’s boiling point is substantially greater compared to its melting point.

This implies that vaporizing gold needs a considerably greater temperature than when undergoing melting.

This variation is due to the fact that melting and boiling are two distinctive physical procedures. Melting happens when the particles in a solid possess sufficient kinetic energy to break out of their fixed locations in the crystal lattice and circulate more freely.

In contrast, when the kinetic energy of the particles in a liquid attains high levels, they are capable of overcoming the attraction that connects them and escape into the gas state, resulting in boiling.

Due to the strong attraction that connects gold atoms, gold tends to have a high melting point.

These kinds of pressures, however, might be resisted at extremely elevated temperatures, which is why gold happens to possess a high boiling point. The high boiling point of gold renders it useful for a wide range of industrial processes.

How Gold Melting Point Compare to Other Metals

The melting temperature of gold is approximately 1064°C (1948°F). Since gold has a unique molecular structure, you will certainly see its melting points vary compared to other metals. Let’s take a look:


Die benaderde melting temperature of silver is about 961°C (1763°F), while gold possesses a higher melting temperature than that of silver.


Aluminum has a melting temperature of approximately 660.3°C (1221°F), whereas gold melts at a considerably greater temperature compared to aluminum.


Copper melts at a temperature of around 1085°C (1984°F), while gold has a melting temperature that is slightly lower than copper.


The melting temperature of titanium is about 1668°C (3034°F), whereas the melting temperature of gold is much lower compared to that of titanium.


The approximate melting temperature of iron is around 1538°C (2800°F), whilst gold melts at a lower temperature compared to iron.


The melting temperature of Lead is around 327.5°C (621.4°F), whereas the melting temperature of gold is substantially higher than that of Lead.


Platinum has a melting temperature of approximately 1768°C (3215°F), while gold melts at a much lower temperature than platinum.


The melting temperature of zinc is roughly 419.5°C (787.2°F), whilst gold possesses a greater melting temperature compared to zinc.


Nickel has a melting temperature of about 1455°C (2651°F), while gold melts at a significantly lower temperature compared to nickel.

Why Understanding the Melting Temperature of Gold is Important


Gold is an extremely prevalent jewelry material. Having knowledge of the melting temperature of gold is crucial for jewelry makers who mold and shape it into a variety of patterns. This kind of operation usually involves soldering and casting, both of which require accurate temperature control.

Excessive heating of gold can make it brittle and prone to fracture

Production & Metalworking

Sectors like electronics and aircraft utilize gold because of its resistance to corrosion and conductivity. Operations in the industry involving shaping gold elements, casting, and alloying necessitate an understanding of the gold melting temperature.

Refining and Extraction

Being aware of the gold’s melting temperature is very important in the mining and refining procedures. It contributes to the separation of gold from other minerals and pollutants via refining and smelting procedures so as to make high-quality items.

Wetenskaplike Navorsing

The physical features of gold, particularly its melting temperature must be a priority and well understood by material scientists and researchers. This understanding is critical for examinations, experiments, and the development of different substances and techniques.

Quality Control

The melting temperatures of various grades of gold differ considerably. Knowing these differences is of great essence for the assurance of quality in operations that necessitate particular gold alloys for specific uses.

Kommer oor veiligheid

Operating with extreme temperatures contributes to a number of safety considerations. Understanding the melting temperature of gold is important for guaranteeing the safety of anyone who is involved in operations. These may include welding, casting, and any other procedure involving heating gold.

Cultural and Historical Applications

Having knowledge of the characteristics of gold, especially its melting temperature, is essential in cultural and historical settings. This awareness was of great significance for ancient goldsmiths and artists who made exquisite gold items.

Melting Temperature of Different Gold Grades

As mentioned earlier, the purity or impurity plays an integral factor in determining the melting temperature of gold. As you will see shortly, the melting point varies with purity.

· 24 Karat Gold (99.99% Pure)

The approximate melting temperature of 24 Karat Gold is 1948°F (1064°C).

· 22 Karat Gold (91.67% Pure)

The melting temperature of 22 Karat Gold is roughly 1910°F (1040°C).

· 18 Karat Gold (75% Pure)

18 Karat Gold has a melting temperature of approximately 1740°F (950°C).

· 14 Karat Gold (58.33% Pure)

The approximate melting temperature of 14 Karat Gold is around 1640°F (893°C).

· 10 Karat Gold (41.67% Pure)

10 Karat Gold possesses a melting temperature of about 1580°F (860°C).

It is important to note that the melting point of gold is a fundamental feature that contributes to its versatility and value. Also, it is useful in an array of applications that include electronics, jewelry, aircraft, and industrial operations.

Additionally, it is also essential to understand the melting temperature of gold so as to ensure the gold’s purity, quality, and safety and prevent damage to gold items.

Keep in mind that the melting point of gold can be affected by a range of factors such as impurities, pressure, and the purity of gold among other factors.

Meer Resources:

Ways to Melt Gold – Source: WIKI HOW

Understanding Gold Melting – Source: Guardian Gold

Gold Info – Source: Quality Jewelers

Smelt goud – Source: Gold Rush

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