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10/21/2011
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 Rz = Ra; Rmax < Rmax

# Converting Common Surface Texture Measurements

## There are several different methods of roughness measurement in use today. The method used on any given part depends largely on the measurement parameters the manufacturer and the customer prefer to use.

The irregularity of a machined surface is the result of the machining process including the choice of tool, feed and speed of the tool, machine geometry and environmental conditions. This irregularity consists of high and low spots machined into a surface by the tool bit or a grinding wheel. These peaks and valleys can be measured and used to define the condition and sometimes the performance of the surface. There are more than 100 ways to measure a surface and analyze the results, but the most common measurement of the mark made by the tool or the surface texture is the roughness measurement.

There are several different methods of roughness measurement in use today. The method used on any given part depends largely on where in the world the part is manufactured and the measurement parameters the manufacturer and the customer prefer to use. It is not uncommon for different parties involved in the production to use different methods for roughness measurement. In this article we will talk about only two of the many methods of roughness measurement, how to convert between these two methods and how to avoid the problems caused by the inevitable use of more than one roughness measurement.

In North America, the most common parameter for surface texture is Average Roughness (Ra). Ra is calculated by an algorithm that measures the average length between the peaks and valleys and the deviation from the mean line on the entire surface within the sampling length. Ra averages all peaks and valleys of the roughness profile, and then neutralizes the few outlying points so that the extreme points have no significant impact on the final results. It's a simple and effective method for monitoring surface texture and ensuring consistency in measurement of multiple surfaces.

In Europe, the more common parameter for roughness is Mean Roughness depth (Rz). Rz is calculated by measuring the vertical distance from the highest peak to the lowest valley within five sampling lengths, then averaging these distances. Rz averages only the five highest peaks and the five deepest valleys, therefore, extremes have a much greater influence on the final value. Over the years, the method of calculating Rz has changed but the symbol Rz has not. As a result, there are three different Rz calculations still in use and it is very important to know which calculation is being defined before making the measurement.

There are rules of thumb that can help clear up the confusion and convert Ra to Rz or Rz to Ra. If the manufacturer specifies and accepts the Rz parameter but the customer uses the Ra parameter, using a ratio range for Rz-to-Ra = 4-to-1 to 7-to-1 is a safe conversion. However, if Ra is used as an acceptance criteria by the manufacturer but the customer accepts Rz to evaluate the part, then the conversion ratio would be much higher than 7-to-1, possibly as high as 20-to-1. Keep in mind that the actual shape of the part's profile will have a significant impact on these ratios.

The approximate and sometimes questionable comparisons can be avoided by developing an understanding of exactly what a parameter means, and how the various parties involved in the production plan to check the surface. The best way for those involved in the production to be in agreement on the parameters for measurement, is to have capable evaluation equipment in both the manufacturer's and customer's facility making the same check using the same method. If the manufacturer or the customer uses conversion ratios, then both parties should be aware of the use of the ratio and be comfortable with the ramifications.

– Tech Tip courtesy of Mahr Federal Inc.

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