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Tungsten
Tungsten, as an alloy in steel, has been known and used for a...

Manganese
Manganese adds considerably to the tensile strength of steel,...

Molybdenum
Molybdenum steels have been made commercially for twenty-five...

Composition And Properties Of Steel
It is a remarkable fact that one can look through a dozen tex...

Hardening
The forgings can be hardened by cooling in still air or quen...

Case-hardening Treatments For Various Steels
Plain water, salt water and linseed oil are the three most co...

Tempering Colors On Carbon Steels
Opinions differ as to the temperature which is indicated by t...

The Pyrometer And Its Use
In the heat treatment of steel, it has become absolutely nece...

Testing And Inspection Of Heat Treatment
The hard parts of the gear must be so hard that a new mill f...

Silicon
Silicon prevents, to a large extent, defects such as gas bubb...

Hardening High-speed Steel
In forging use coke for fuel in the forge. Heat steel slowly ...

Calibration Of Pyrometer With Common Salt
An easy and convenient method for standardization and one whi...

Refining The Grain
This is remedied by reheating the piece to a temperature slig...

Heat Treatment Of Steel
Heat treatment consists in heating and cooling metal at defin...

A Chromium-cobalt Steel
The Latrobe Steel Company make a high-speed steel without tun...

Optical System And Electrical Circuit Of The Leeds & Northrup Optical Pyrometer
For extremely high temperature, the optical pyrometer is lar...

Judging The Heat Of Steel
While the use of a pyrometer is of course the only way to hav...

Typical Oil-fired Furnaces
Several types of standard oil-fired furnaces are shown herew...

Non-shrinking Oil-hardening Steels
Certain steels have a very low rate of expansion and contract...

Complete Calibration Of Pyrometers
For the complete calibration of a thermo-couple of unknown e...



Rate Of Cooling






Category: APPLICATION OF LIBERTY ENGINE MATERIALS TO THE AUTOMOTIVE INDUSTRY

At the option of the manufacturer, the above treatment of gear
forgings could be substituted by normalizing the forgings at a
temperature of from 1,550 to 1,600 deg.F. The most important criterion
for proper normalizing, consisted in allowing the forgings to cool
through the critical temperature of the steel, at a rate not to exceed
50 deg.F. per hour. For the two standard steels used, this consisted in
cooling from the normalizing temperature down to a temperature
of 1,100 deg.F., at the rate indicated. Forgings normalized in this
manner will show a Brinell hardness of from 177 to 217. The question
has been repeatedly asked as to which treatment will produce the
higher quality finished part. In answer to this I will state that
on simple forgings of comparatively small section, the normalizing
treatment will produce a finished part which is of equal quality to
that of the quenched and annealed forgings. However, in the case of
complex forgings, or those of large section, more uniform physical
properties of the finished part will be obtained by quenching and
annealing the forgings in the place of normalizing.

The heat treatment of the finished gears consisted of quenching
in oil from a temperature of from 1,420 to 1,440 deg.F. for the No.
X-3,340 steel, or from a temperature of from 1,500 to 1,540 deg.F.
for No. 6,140 steel, followed by tempering in saltpeter or in an
electric furnace at a temperature of from 650 to 700 deg.F.

The question has been asked by many engineers, why is the comparatively
low scleroscope hardness specified for gears? The reason for this is
that at best the life of an aviation engine is short, as compared with
that of an automobile, truck or tractor, and that shock resistance
is of vital importance. A sclerescope hardness of from 55 to 65
will give sufficient resistance to wear to prevent replacements
during the life of an aviation engine, while at the same time this
hardness produces approximately 50 per cent greater shock-resisting
properties to the gear. In the case of the automobile, truck or
tractor, resistance to wear is the main criterion and for that
reason the higher hardness is specified.

Great care should be taken in the design of an aviation engine
gear to eliminate sharp corners at the bottom of teeth as well
as in keyways. Any change of section in any stressed part of an
aviation engine must have a radius of at least 1/32 in. to give
proper shock and fatigue resistance. This fact has been demonstrated
many times during the Liberty engine program.





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Previous: Gears



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