Like d2 it is incredibly resistant to distortion during heat treating and is moderately machinable and grindable.
A2 tool steel heat treat chart.
It is heat treatable and will offer a hardness in the range 57 62 hrc.
A2 steel is an air hardening cold work tool steel.
Stress relieving when heavy machining cuts are employed the resultant stresses may be relieved by heating the material to 1200 f to 1250 f for one hour and cooling in still air.
Soak at temperature for approximately two hours and cool slowly in the fur nace.
A2 tool steel properties.
A2 tool steel can be difficult to heat treat.
Generally supplied annealed to hb 231 max.
The chart below describes various types of tool steels their composition and appropriate heat treating applications.
A2 tool steel is an air hardening cold work chromium alloy die steel that is preferable to o1 tool steel in applications requiring greater size stability machinability and safer hardening.
The steel is composted of 1 percent carbon 3 percent silicon 6 percent manganese 5 3 percent chromium 1 1 percent molybdenum and 2 percent vanadium.
A2 tool steel is a versatile air hardening tool steel that is characterized by good toughness and excellent dimensional stability in heat treatment a2 is intermediate in wear resistance between o1 oil hardening tool steel and d2 high carbon high chromium tool steel.
It s highly wear resistant and moderately tough.
Steel composition harden f temper f anneal f normalize f quench atmosphere.
A2 air hardening tool steel annealing heat uniformly to 1650 f.
Most tool steels grow between about 0 0005 and 0 002 inch per inch of original length during heat treatment.
A 5 chromium steel which provides high hardness after heat treatment with good dimensional stability.
A2 is also an air hardening tool steel but includes less than half the chromium 4 75 5 50 and a bit less carbon 0 95 1 05 than d2.
This widely used tool steel has low distortion in heat treatment good machinability good toughness for severe service high abrasion resistance and deep.
The heat treat process results in unavoidable size increases in tool steels because of the changes in their microstructure.