Hi Dik - This is excellent information. Thanks very much. Wow, that is certainly a big area (about 4 times the size of our current project) and it would be great to learn how it performs.
How old is it?
Have you gone back to see how it is performign after a year, or are you planning to? Be interesting to see if there are any any lessons to be learned.
Your comments are excellent and I agree fairly well with what you say, except I am a little concerned about poly directly under the floor because it promotes water rising to the surface which has undesirable effects on finishing and durability. The floor finishers in the Toronto area have told us not to do it and that seems to be supported by the literature. I assume that you have not had this problem. Generally we have stopped doing it for regular slabs on grade such as for schools, hospitals, etc. unless the geotechnical engineers says that it is required for moisture vapour permeation (or radon gas) reasons.
Regarding control joint spacing, about 20 years ago we were commissioned by a Canadian Governemnt Department to do a study to arrive at recommendations for their warehouse slabs. The people we assembled for that included one of the foremost experts in the field of concrete technology in Canada at the time and a foremr chiarman of CSA A23.1. I believe that one of the principle recommendations of that study was to space the control joints as far apart as justifiable having due regard to shrinkage and cracking, to minimize the number of joints, as they were one of the principle problem areas.
To achieve that, without causing undue cracking issues, the concrete technolgy expert came up with specific recommendations, not only about the size of course aggregate but also with respect to the proportioning for maximum bulk density and other aspects of the design of the mix, curing, etc. If you are not doing those rather special things that go well beyond just using the well known advice to use 40 mm coarse aggregate, then I can perhaps understand why you favour 15 or 20 foor joint spacings for an 8" slab.
Although I was not part of that study, I highly regard the people who researched and authored it. Now in their 80's they are still alive and I suppose I could consider going back to them and get their comments.
In my opinion, some of these things are trade-offs of one aspect of performance for another, so engineers' opinions can differ. It is interesting and useful information that, on balance, you have had better overall success with warehouse floors with rack storage and forklifts when you used control joints at closer spacing than greater spacing. Have you ever tried greater control joint spacing?
Regarding sawcuts and reinforcing, I suppose the reinforcing diminishes the effectiveness of the sawcuts, but overall I agree that it is not practical to stop the rebar at the sawcut control joints. In any event the reinfoecemnt to control crack width is in accordance with ACI.
Incidentally, in the Toronto area, we are quite near to a good source of high quality ground granulated blast furnace slag and far from fly ash source. With coal-generated electricity being phased out in Ontario, fly ash sources will have to be from the U.S. or Quebec, when it is no longer available from northern Ontario. Mostly it is slag as the SCM in the Toronto area, and I believe that little concrete is produced here that does not include slag. We do not generally have the sulphate issues that are prevalent on the prairies. Deicing chemicals (chlorides and other reactive ions) are a very big issue here for parking structures and the like, but this warehouse floor would not be subject to that and chloride in the soil has not been an issue here generally.
Some other questions, if you do not mind:
1. By "pour joints" do you mean the "constrcution joint" that would occur at the end of the day's pour?
2. Do you have any maximum limit on the length of slab placed in any one day? My concern would be opening of the construction joint to too wide a width if the length of pour is too long, particularly since the rebar thru the sawcut control joints may limit how much of the shrikage movement actually occurs at the sawcut joints and it may accumulate at the construction joint at the end of the pour. We had this issue with a topping placed on top of insulation (it was not a warehouse)
3. Do you provide "additional" local rebar in the slab at the construction joints to control cracking when the forklift vehicle goes over it when it is curled upward?
4. Do you normally use any hardener such a as a dry shake or a liquid hardener (such as Ashford formula) on the floors?
Best Regards
