The Superficial Rockwell Scales lists the 15x, 30x, and 45x they are:
Scale Indenter Major Minor Applications
Load Load
15X 1/4" ball 15 kg 3 kg Used for very soft materials
30X 1/4" ball 30 kg 3 kg Used for very soft materials
45X 1/4" ball 45 kg 3 kg Used for very soft materials
Converting Scale:
Sometimes it is necessary to test in one scale and report in another scale. Conversions have been established that have some validity, but it is important to note that unless an actual correlation has been completed by testing in different scales, established conversions may or may not provide reliable information. (Refer to ASTM scale conversion charts for non-austenitic metals in the high hardness range and low hardness range.) Also refer to ASTM standard E140 for more scale conversion information.
The Rockwell method measures the permanent depth of indentation produced by a force on an indenter. First, a preliminary test force (pre-load or minor load) is applied to a sample using a diamond indenter. This is the zero or reference position that breaks through the surface to reduce the effects of surface finish. Then, an additional test force (or major load) is applied to reach the total required test force. This force is held for a predetermined amount of time to allow for elastic recovery. The additional test force is then released and the final position is measured against the preliminary position and converted to a hardness number. Preliminary test forces range from 3 kg (used in "Superficial" Rockwell scale) to 10 kilograms (used in "Regular" Rockwell scale) to 200 kilograms (macro scale - not part of ASTM E-18; see ASTM E-1842). Total test forces range from 15 through 150 kilograms (superficial & regular) to 500 through 3000 kilograms (macro). A variety of indenters may be used: a conical diamond with a round tip for harder metals, and ball indenters ranging from 1/16" to 1/2" for softer and softer materials.
As a general guide to selecting a Rockwell scale, the operator should select the scale that specifies the largest load and smallest indenter possible to do the job without exceeding defined operating conditions and accounting for conditions that influence the test result. These influencing conditions include test specimens which are below the minimum thickness for the depth of indentation.
