Measuring instruments may "read" to .0001's but should it be trusted? I have worked in .0001's a good portion of my shop career and working in sub .001's should not be considered a casual affair. Yes many of us have done the +/- .0005 target but to get a reliable dimension closer than that brings temperature, the instrument, and who took the dimension into question. A DTI, air gauging, gauge blocks, or an indicating mic is all I'd trust if I really need to work to +/- .0001. Nice to have a mic that reads to it but holding the mic or the work in your hand can/will change the dimension. Working to +/- .0001 isn't easy even on a surface grinder in good condition. I don't think most people realize just how tiny .0001 really is, let alone measure it reliably. YMMV.
Along the same lines of what you are saying is that one of the reasons I went into the surface grinding department is that they were "climate controlled" in other words air conditioned.
When you are a hotshot kid and hog off a bunch of stock on the surface grinder and you think you have a few thou left for finish, but it cools undersize you learn real fast.
I would keep a line up of a few parts that were the same and rough them down one by one, then I would semi finish them and finally finish them. Basically, what I'm saying is that it was a 3 step process to grind 0.010" off and finish a part to hold tolerance. The pieces that weren't being worked on would have the surface that was being worked on a plate of steel to take the heat out. Holding 0.0001" is no joke and it only gets more ridiculous when they give you a 50 millionth tolerance (0.00005").
When you are holding those tolerances, you take the bigger 6" x 12" chuck off the surface grinder and put the smaller 6" x 6" chuck on because you need to regrind it to be absolutely flat and the 6x6 is going to heat up way less than a 6 x 12.
So true that people have a hard time wrapping their brains around 0.0001" a piece of regular paper is between 0.003 and 0.004" it's hard to comprehend that the piece of paper is 30 - 40 times thicker than 0.0001.