dnewton3
Staff member
Here's his most recent video:
Here is my summary of the content and my own comments:
- first of all, his production of videos continues to get better. He is more "on point", doesn't yell as much, gets to the details quicker, etc. This improves the "watch-ability" of his videos.
- clearly he's using a new source of data analysis; he's not good at statistical processing himself. He's displaying some tools which are more factually based; true data processing. Someone is helping him, and that's a good thing.
- the first part of the vid is about Porsche engine wear, but the second part speaks to viscosity
- he makes a point (one I've been saying for years) that once an appropriate level of hydrodynamic boundary is present, "more" doesn't return any improvement statistically (adding vis is only important to some level for any application, and past that, it's moot)
- he notes that "moly" does have a significant effect on wear
Probably the most important thing he discusses (which I also have been stating for years) is that the oil itself is only one part of a whole "lubrication system". The "system" takes oil content, volume, viscosity, flow rate, sump capacity, etc all into account to reduce wear.
One of his better videos; this one is reasonable in its presentation and information.
Here is my summary of the content and my own comments:
- first of all, his production of videos continues to get better. He is more "on point", doesn't yell as much, gets to the details quicker, etc. This improves the "watch-ability" of his videos.
- clearly he's using a new source of data analysis; he's not good at statistical processing himself. He's displaying some tools which are more factually based; true data processing. Someone is helping him, and that's a good thing.
- the first part of the vid is about Porsche engine wear, but the second part speaks to viscosity
- he makes a point (one I've been saying for years) that once an appropriate level of hydrodynamic boundary is present, "more" doesn't return any improvement statistically (adding vis is only important to some level for any application, and past that, it's moot)
- he notes that "moly" does have a significant effect on wear
Probably the most important thing he discusses (which I also have been stating for years) is that the oil itself is only one part of a whole "lubrication system". The "system" takes oil content, volume, viscosity, flow rate, sump capacity, etc all into account to reduce wear.
One of his better videos; this one is reasonable in its presentation and information.
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