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The Hollomon–Jaffe parameter (HP), also generally known as the Larson–Miller parameter, describes the effect of a heat treatment at a
temperature Temperature is a physical quantity that expresses quantitatively the perceptions of hotness and coldness. Temperature is measured with a thermometer. Thermometers are calibrated in various temperature scales that historically have relied o ...
for a certain time. This parameter is especially used to describe the tempering of steels, so that it is also called tempering parameter.


Effect

The effect of the heat treatment depends on its temperature and its time. The same effect can be achieved with a low temperature and a long holding time, or with a higher temperature and a short holding time.


Formula

In the Hollomon–Jaffe parameter, this exchangeability of time and temperature can be described by the following formula: :H_p = \frac \cdot (C + \log(t)) This formula is not consistent concerning the units; the parameters must be entered in a certain manner. ''T'' is in degrees Celsius. The argument of the
logarithmic function In mathematics, the logarithm is the inverse function to exponentiation. That means the logarithm of a number  to the base  is the exponent to which must be raised, to produce . For example, since , the ''logarithm base'' 10 of ...
has the unit hours. ''C'' is a parameter unique to the material used. The Hollomon parameter itself is
unitless A dimensionless quantity (also known as a bare quantity, pure quantity, or scalar quantity as well as quantity of dimension one) is a quantity to which no physical dimension is assigned, with a corresponding SI unit of measurement of one (or 1) ...
and realistic numeric values vary between 15 and 21. :H_p = T (C + \log(t)) \, where ''T'' is in kilokelvins, ''t'' is in hours, and ''C'' is the same as above. Holloman and Jaffe determined the value of ''C'' experimentally by plotting hardness versus tempering time for a series of tempering temperatures of interest and interpolating the data to obtain the time necessary to yield a number of different hardness values. This work was based on six different heats of plain carbon steels with carbon contents varying from 0.35%–1.15%. The value of ''C'' was found to vary somewhat for different steels and decrease linearly with the carbon content of a steel grade. Holloman and Jaffe proposed that ''C'' = 19.5 for carbon and alloy steels with carbon contents of 0.25%–0.4%; and ''C'' = 15 for tool steels with carbon contents of 0.9%–1.2%.


See also

* Zener–Hollomon parameter


References

{{DEFAULTSORT:Hollomon-Jaffe Parameter Metal heat treatments