Steel Making

Compensating Leads
By the use of compensating leads, formed of the same materia...

The Penetration Of Carbon
Carburized mild steel is used to a great extent in the manufa...

Flange Shields For Furnaces
Such portable flame shields as the one illustrated in Fig. 1...

Temperature Recording And Regulation
Each furnace is equipped with pyrometers, but the reading an...

Annealing
ANNEALING can be done by heating to temperatures ranging from...

Quenching Tool Steel
To secure proper hardness, the cooling of quenching of steel ...

The Effect
The heating at 1,600 deg.F. gives the first heat treatment w...

Quenching The Work
In some operations case-hardened work is quenched from the bo...

Silicon
SILICON is a very widespread element (symbol Si), being an es...

Fatigue Tests
It has been known for fifty years that a beam or rod would fa...

Hints For Tool Steel Users
Do not hesitate to ask for information from the maker as to t...

Pyrometers For Molten Metal
Pyrometers for molten metal are connected to portable thermoc...

Tempering Round Dies
A number of circular dies of carbon tool steel for use in too...

Effects Of Proper Annealing
Proper annealing of low-carbon steels causes a complete solu...

Heat-treating Equipment And Methods For Mass Production
The heat-treating department of the Brown-Lipe-Chapin Company...

Hardening Carbon Steel For Tools
For years the toolmaker had full sway in regard to make of st...

Piston Pin
The piston pin on an aviation engine must possess maximum res...

William Kelly's Air-boiling Process
An account of Bessemer's address to the British Association w...

The Thermo-couple
With the application of the thermo-couple, the measurement of...

Lathe And Planer Tools
FORGING.--Gently warm the steel to remove any chill, is parti...

Quenching Tool Steel

Category: HARDENING CARBON STEEL FOR TOOLS

To secure proper hardness, the cooling of quenching of steel is
as important as its heating. Quenching baths vary in nature, there
being a large number of ways to cool a piece of steel in contrast
to the comparatively few ways of heating it.

Plain water, brine and oil are the three most common quenching
materials. Of these three the brine will give the most hardness,
and plain water and oil come next. The colder that any of these
baths is when the piece is put into it the harder will be the steel;
but this does not mean that it is a good plan to dip the heated
steel into a tank of ice water, for the shock would be so great
that the bar would probably fly to pieces. In fact, the quenching
bath must be sometimes heated a bit to take off the edge of the
shock.

Brine solutions will work uniformly, or give the same degree of
hardness, until they reach a temperature of 150 deg.F. above which
their grip relaxes and the metals quenched in them become softer.
Plain water holds its grip up to a temperature of approximately
100 deg.F.; but oil baths, which are used to secure a slower rate of
cooling, may be used up to 500 deg. or more. A compromise is sometimes
effected by using a bath consisting of an inch or two of oil floating
on the surface of water. As the hot steel passes through the oil,
the shock is not as severe as if it were to be thrust directly
into the water; and in addition, oil adheres to the tool and keeps
the water from direct contact with the metal.

The old idea that mercury will harden steel more than any other
quenching material has been exploded. A bath consisting of melted
cyanide of potassium is useful for heating fine engraved dies and
other articles that are required to come out free from scale. One
must always be careful to provide a hood or exhaust system to get
rid of the deadly fumes coming from the cyanide pot.

The one main thing to remember in hardening tool steel is to quench
on a rising heat. This does not mean a rapid heating as a slow
increase in temperature is much better in every way.





Next: The Theory Of Tempering
Previous: Double Annealing

			Report Privacy
	SHARE	BOOKMARK

Viewed 987