Originally Posted By: expat
Gary, I think you and I are seeing the same things, We see studies that show the Engine wear after a cold start, and a decrease in wear as the engine warms up.
Now an engine may reach full operational 'Coolant' temp after 8 minutes (thanks to a thermostat) but oil temp may take 20 minutes to reach optimal.
What I would 'like' to see is a Kink in the graph when the coolant has reached operational level, yet engine wear still decreases (at a slower rate) while the engine oil is still warming.
Or, show the two graphs, one monitoring coolant temp the other Oil temp, but also add a time scale!
Heck, Then do it all again with the addition of Upper cyl lube in the gas.
It would seem to me that the oil would always be hotter and warm up faster than the coolant. the oil is the first level of coolant and has the most close contact to friction and heating parts. Why would the coolant heat up faster than the oil? Sure oil might be slightly less efficient heat conductor than water, but water also has a higher thermal mass and takes longer to rise in temperature. Add to that there's usually more coolant than oil and the coolant has less intimate contact with engine parts.
If cylinder wall wear is higher when a cooler thermostat is used, how is that any different than saying cooler coolant temperatures during start up also cause more wear? Hot running cngine clearances can't be met until the average coolant temperature and engine temperature are met. Coolant temps and oil temps are related. If your coolant is cooler or hotter, your oil oil is cooler or hotter too.
