I'm not a statistician, just a user of statistics, but:
1. Are the proportions very different with the smaller and larger samples?
2. Is this an inference issue rather than a statistics issue per se? I recently was reading Nakagawa and Cuthill (below); they make the point (and I've seen other versions of this illustration) that, if one could measure the lengths of wings of all the birds in a population, the difference in mean wing length between sexes would almost certainly be statistically significant. Whether this would mean something to biologists is another question.


Nakagawa, S., and I. C. Cuthill. 2007. Effect size, confidence interval and statistical significance: A practical guide for biologists. Biological Reviews 82: 591-605.

What you are describing is the difference between "statistical significance" and "practical significance". The computation of a p-value is based on a formula that includes a function of the sample size in the denominator and a function of the "effect size" (median difference, here) in the numerator. Therefore, for any given effect size, you get a smaller and smaller p-value just by increasing the sample size.

When the sample size is really large (like yours), you have to pretty much ignore the p-value as an "index of importance" and just look at the effect size itself.

BTW, the Wilcoxon is a rather poor test if the dependent variable is binary, it loses sensitivity when there are lots of ties. You are probably better with a chi-squared test of the difference in attrition proportion across market segments.