Ac1 temperature is the temperature at which steel begins transforming into austenite during heating.
Ac3 temperature is the temperature at which the transformation to austenite is completed.
These temperatures vary depending on the carbon content and composition of the steel.

What are Ac1 and Ac3 temperatures of steel?

Ac1 and Ac3 are important critical temperatures of steel used in heat treatment processes such as annealing, normalizing, hardening, and quenching. These temperatures indicate when structural transformations begin and end during heating of steel.

The notation uses:

A → arrest or transformation temperature
c → heating (chauffage, from French, meaning heating)

For cooling transformations, symbols like Ar1 and Ar3 are used.

These temperatures are very important because heat treatment results depend on heating steel to the correct range.

1. Ac1 temperature (Lower critical temperature)

Ac1 is the temperature at which austenite begins to form during heating.

Below Ac1:

Steel consists mainly of structures such as:

Ferrite
Pearlite
Cementite (depending on carbon content)

At Ac1:

Transformation starts.

Part of the structure begins changing into austenite.

Definition

Ac1 is the temperature at which austenite formation starts during heating.

For plain carbon steel:

Ac1 is approximately 723°C (may vary slightly with composition).

What happens at Ac1?

When steel reaches Ac1:

Pearlite begins transforming into austenite
Structural changes start
Atomic rearrangement begins

Transformation is not yet complete.

2. Ac3 temperature (Upper critical temperature)

Ac3 is the temperature at which transformation into austenite becomes complete during heating for hypoeutectoid steels (less than about 0.8% carbon).

Definition

Ac3 is the temperature at which ferrite completely transforms into austenite during heating.

Above Ac3:

Steel structure becomes fully austenitic.

What happens at Ac3?

During heating:

Ferrite gradually disappears
Austenite increases
At Ac3 transformation is complete

Result:

100% austenite structure.

Structural changes between Ac1 and Ac3

For hypoeutectoid steel:

Below Ac1

Structure:

Ferrite + Pearlite

Between Ac1 and Ac3

Structure:

Ferrite + Austenite

Transformation is occurring.

Above Ac3

Structure:

100% Austenite

Transformation complete.

Temperature values depend on carbon content

Ac3 is not constant.

It changes with steel composition.

General trend:

Increasing carbon lowers Ac3 temperature.

Typical examples:

Carbon content	Approximate Ac1	Approximate Ac3
0.2% carbon steel	~723°C	~900°C
0.4% carbon steel	~723°C	~820°C
0.8% carbon steel	~723°C	~723°C

At eutectoid composition (~0.8% carbon):

Ac1 and Ac3 meet.

Importance of Ac1 and Ac3 in heat treatment

These temperatures determine correct heating temperatures.

Annealing

Steel is heated above Ac3 or above Ac1 depending on steel type.

Purpose:

Soften material
Refine structure

Normalizing

Heating is usually:

Ac3 + additional temperature margin

Purpose:

Produce uniform structure

Hardening

Steel is heated above critical temperatures before quenching.

Purpose:

Obtain complete austenitic transformation

Tempering

Usually performed below critical temperatures.

Importance in industrial practice

Correct selection of temperature:

Prevents incomplete transformation
Avoids overheating
Improves hardness and toughness
Controls grain size
Improves final properties

If steel is heated below Ac3 during hardening:

Austenite formation may be incomplete
Hardness may decrease

If overheated:

Grain growth may occur
Mechanical properties may worsen

Relation with iron–carbon diagram

Ac1 and Ac3 are represented on the Iron–Carbon Phase Diagram.

Ac1 corresponds to lower transformation line
Ac3 corresponds to upper transformation boundary for hypoeutectoid steels

These critical lines guide heat treatment temperature selection.

Simple example

Consider a steel containing 0.4% carbon:

Below 723°C → ferrite + pearlite
At 723°C (Ac1) → austenite starts forming
Around 820°C (Ac3) → fully austenitic
Above Ac3 → suitable for quenching

Conclusion:

Ac1 is the temperature where austenite starts forming during heating, whereas Ac3 is the temperature where transformation into austenite is completed.