I have no dispute with the test results (nice use of the keyboard btw). My only question is "is it the result of poor lubrication due to too high a viscosity"? That is, if the first 5 minutes of the test were performed with a fluid that was between 9.3 and 12.49 Cst @ 75°F (for the sake of the exercize - ambient temp) ..I would venture to say that the wear results would be within enough of a range to be essentially identical. That is, regardless of the wear rate ..the warming of the components lessened it ..not the viscosity of the oil.
Therefore, although I do not dispute the assertions that more wear occurs in the first 20 minutes of operation AND that this coincides with the oil temp and its reaching its 212°F (+/-) visocity, I don't think that the wear is caused by the viscosity of the oil nor can it be prevented by it.
Perhaps this is my misinterpretation of the lesson. It appeared to (and this is perhaps just me) use this data to show that the oil can not lubricate adaquately due to its thickness at that temp. My assertion is that no viscosity would adaquately lubricate the engine in that transitional state to emulate the steady state wear. That is, the 100 nano grams may be reduced to 90 or 80 ..or perhaps 40 ..but regardless of what lubricant was used (indexed for 10 Cst for each incremental upramp in system temp)it would result in this elevated wear rate.
Now I somewhat figure that Schneider wasn't exploring the full boat of "what ifs". That is, he probably didn't prewarm the coolant jacket and then run the same test through the oil warm up period ..nor prewarmed the oil ..or both thorought the sequence of 5-10-15-20 minute tests. At least I would expect not. So, although the wear event tracks the oil temperature and the reaching of its 10 Cst visocity ..it may be totally indenpendant of it.
If this wear was a byproduct of viscosity ..then a subsequent test sequence with a 20 weight oil would have shown lower wear numbers(or the curve would lengthen earlier) IF viscosity had a role in reducing it.