Hairline Cracks after 3 days
Hairline Cracks after 3 days
(OP)
Just had a 24x36 garage pad poured 4-5" thick (garage doors were not installed). Ambient temp was around 50°F and probably got to 25-30°F at night for the first 3 days. After that the high only reached 45°F. 3 control joints were used. After 3 days I am seeing random hairline cracks. Surface was worked real smooth. The cracking is not crazing from what I can tell. The cracks have not opened up in 11 days. Concrete guy says he will do a hammer test. What else should I require to ensure I do not have troubles years down the road. Jackhammer it up?





RE: Hairline Cracks after 3 days
If three control joints were used, then the max. size of any section should be 12x12. That's OK for spacing, but when did he saw the joints? My guess is day after placement. If so, the cracks had already occurred based on the conditions you gave. Was it protected from freezing? If not, the cracks might ultimately be the least of your worries.
What is the pattern of the cracks? Are they parallel to the cut control joints? Please give all info and then we can perhaps guide you.
The "hammer" he suggested (Swiss Hammer or Rebound Hammer) will tell you nothing about the issue and almost nothing about the concrete. It is a waste of time, but contractors often use it incorrectly to "show" there is nothing wrong with their concrete. The only real use you can get from the Swiss hammer, if used properly, it the relative uniformity of the concrete strength, but it won't actually give you the strength, just its uniformity.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
Just curous, how was the slab cured? If the contrator did not use some form of curing (plastic sheeting, spray on membrane), then you might have some more ammunition for demanding the contractor replace the slab, or at least repair the cracks.
The Swiss hammer, also sometimes called Schmidt Hammer, test might give some usefull info regarding the concrete strength. Since the temperatures were cold, and apparently no protection from the cold was used, the concrete strength may not be as high as it should be. The hammer test might show this, if it is done correctly. Usually however, the contrators have little idea what they are doing. And without a proper sample to calibrate against, it is not reliable for determining actual strength, as Ron said.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
The cracks are hairline now, but they will continue to widen. If he used a high water-cement ratio concrete mix, then your cracks can get quite wide, approaching 1/4-inch in a few years....that's part of the problem with these issues...they don't show their full extent for a long time. If he used a small coarse aggregate size (#89 stone or similar, such as a "pea rock" mix), then expect shrinkage cracks to widen significantly.
If you have a broom finish, you might also have map cracking or crazing that has not yet shown itself. It gets masked for a long time with broom finishes and only starts to show when the concrete starts wearing at the surface.
As for the Swiss Hammer, do not let that be the only method of testing used to determine concrete strength and other characteristics. It can be very misleading and will often show concrete "strength" values that are relatively high compared to core strengths. As structuresguy said, correlation is necessary.
The pattern of cracking you described is exactly as expected when the contractor doesn't sawcut the joints quickly and properly.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
Russ
RE: Hairline Cracks after 3 days
I have a similar experience to share with you. Last year we had our pad (26 x 26) done by our contractor. He was getting ready to leave and I asked him about the joints.
What joints?
He said he doesn't typically put joints on covered garages (not enough of ambient temp change). In MN that could be 50 deg. easy (would be more - but like he said because it is covered). I said no way - it will crack in about a day if you don't - that pad is way too big. Saw it in 1/4 (13' squares) and be done with it. He did.
The pad was then covered by us (I didn't want to take the chance with him after that) and kept soaking wet for 7 days with burlap and pvc sheeting (which by the way was still warm after we took it off a week later!!!). The pad (joints sealed - 1/4" backerod first and then sealed by me) has since performed very well.
Sidebar - other than that small note, our contractor did an outstanding job for us, and we are very happy with him.
Even with T & S rebar (#4 @ 12" E.W.), you are going to get cracks regardless if you don't saw-cut or joint trowel.
It can't be said enough, as it has here, that joints and curing are a vital part of the entire process. Mesh in the concrete and typical T & S rebar will only go so far.
To me it sounds like the combination of bad curing and no joints. By your posts, it sounds like he didn't even bother covering your pad? That is the biggest no-no with pavements. It was losing heat way to fast, especially in the cold air. A good rule to use is 3 days (best to use 7 days) with soaked burlap and covered w/ pvc (6-mil) to prevent evaporation.
Again, to me it sounds like he did none of the above. You may have grounds for him at least fixing the cracks (as people have said before - they will progress) if not the whole slab. These cracks are only going to get worse. Sorry to say that.
24 x 36. That is way too much area to not have joints like that. I see lots of $$$ for somebody because of this.
I hope I helped. Please ask if you need further info.
RE: Hairline Cracks after 3 days
3500 psi 67 stone
3% accel standard
fiber
LD Hot (not sure what this means but there was not charge associate with this line item)
The funny thing is I do not believe there is any fiber in this mix as I can not see any evidence in the corners or in the waste. I remember years ago, when I had a drive way poured, you could see fibers in the waste products. So, I'm curious how they handle that issue. Anyway, any additional advice before Wednesday is much appreciated.
Russ
RE: Hairline Cracks after 3 days
The 3% Accel is a set accelerator used in cold weather concreting. It causes the concrete to set up quickly so that there is a lower potential for freeze damage.
You should see evidence of the fibers in the mix.
Crazing is characterized by VERY small surface cracking commonly called "map" cracking. You cannot typically catch your fingernail on it and it only shows up early on very smooth finished concrete floors. If your cracks are linear or nearly so, they are common drying shrinkage cracks and they will affect the full depth, not just the surface.
Please carefully watch each step they take in the use of the Swiss hammer and report it back to us. I would bet at this point that they will walk onto the slab, put the hammer down, take a rebound reading, look at the scale and tell you..."this shows the concrete strength to be 4000+ psi...there's no problem with this concrete"... then they'll repeat that for another 4 or 5 locations and declare the concrete to be just fine. THIS IS NOT THE WAY THE REBOUND HAMMER SHOULD BE USED!! There are specific preparation techniques and reading techniques to be used with the rebound hammer.
Ron
RE: Hairline Cracks after 3 days
Computerize mix is the following for an 8 yd pour
Material Design Qty Required Batched
57/67-V 1550 lb 12400 lb 12350 lb
78 stone 300 lb 2400 lb 2360 lb
sand 1311 lb 11222 lb 11320 lb
cement 405 lb 3240 lb 3215 lb
flyash 140 lb 1120 lb 1115 lb
water 36 gal
acc-std 3% 1569.6 oz 1570 oz
hot 144 gal 144 gal
8 bags of fiber
Hammer test results are 20-24 in the back sections, of which I would expect to be curing a little slower and I do not see any hairline cracks. Middle readings are 28-30 and front readings where most cracks are seen averages about 27. The pad is 15 days old. We then measured the pad in the attached garage that is over 28 days and supplied by the same people. Readings averaged 29-30. They did not have the chart to convert these numbers but will call me later today.
They call what I am seeing as surface plastic shrinkage which they say is only on the surface and does not penetrate through. They did say that it is not crazing.
I earlier thought there was no fibers but I now see evidence that fiber was added. What I also see is the analysis at mixing shows 78 stone but my invoice ticket shows 67 stone.
Give me your thoughts
Russ
RE: Hairline Cracks after 3 days
Let me put in my 2 cents. After re-reading your posts, it is evident they did put in joints. However, it is also evident that he did not install them properly. Two days after the pad was poured is way too late. 4-5 hrs is usually the norm. I bet you had cracks in that slab within one day.
Again, back to my statement about curing. Did he spray a membrane on the pad or take any other measures during the curing process? If he did not, you certainly do have issues with your contractor. Especially since he knew (and don't tell me he didn't) it was going to get cold or close to freezing at night.
Do you know what or if any rebar was used? 4x4 or 6x6 WWF or standard #4s at some typical (usually 12-18" each way). How did he place it? Did he use chairs (if he doesn't know what those are, then your rebar is sitting on grade right now).
Don't let that hammer or the results fool you. Sure, your concrete is strong, but that isn't the issue. You can have lots of hairline cracks that don't affect the strength, especially this early in its curing. Over time you will get moisture in your cracks and then into your rebar (if you have any). Its just a lose-lose situation all together.
24x36. Like 12 yds or so. We can all do the $ for that amount. You are going to see lots of armchair advice from all of us (me included). My suggestion is to look into hiring an engineer w/ this type of specialty. It may cost you, but at what price compared to 12 yds of poorly placed concrete? He will want to take cores and do microscopic analysis.
Serious stuff, and serious $. But look, you are going to put a decent size structure on top of this. Why should you have to pay for his mistakes or poor practices? You shouldn't. You will have to look at those cracks every single time you go in and out of the garage.
Please keep us up to date with the daily decisions.
I wish you the best of luck.
Dan
RE: Hairline Cracks after 3 days
No rebar was used. I've got 16 yds in the pour so I'm about 5.5" to 6" deep. I think they may be a little heavy on the amount reported but I am not too concerned on 1-2 yards as I did the compacting myself and looks like I've got in excess of 5+" when measured against the perimeter wall. Also, the computer generated mix ticket shows they sent out (2) 8 yd loads. They have offered to seal the surface to prevent anything from getting into the cracks. Does anyone have a graph that they can translate the hammer test numbers? I am waiting for a call back from the concrete complany and I just want to have my ducks in a row.
RE: Hairline Cracks after 3 days
Sure no problem.
No rebar??? That is very, very odd. I will give you ACI codes which I use. I can't tell you about your fibers. The lack of rebar or mesh (did he use that?) is very strange. I would not trust fibers to control cracking. Proper curing, jointing, and rebar all must work together.
ACI 7.12.2.1 — Area of shrinkage and temperature reinforcement shall provide at least the following ratios of reinforcement area to gross concrete area, but not less than 0.0014:
(a) Slabs where Grade 40 or 50 deformed bars are used = 0.0020.
ACI 7.12.2.2 — Shrinkage and temperature reinforcement shall be spaced not farther apart than five times the slab thickness, nor 18 in.
So basically what they are saying is for a 1-ft strip (12-in), you need 0.0020*(5-in)*(12-in) or 0.12 square inches per foot. This applies both ways (seen as E.W. or each way). A good rule is 1/8 (0.125) square in per foot.
#3 bar = 0.11 si (or 1 bar every 11 inches).
#4 bar = 0.20 si (or 1 bar every 20 inches).
Or some equivalent welded wire fabric (WWF).
The last part states the maximum spacing to be the lesser of 5 times the slab thickness or 18-in. 18-in is the governing case here.
So call it #4 @ 18" and be done with it (my preference would be #4 @ 12" - that much mild rebar is cheap in the long run). Placed on chairs @ mid-slab height. People will say no, put it @ 2/3 below top of slab. Usually not, as it will most likely be stepped on and worked down to the 2/3 depth anyway.
I can't speak for any experience regarding fibers. You should really talk to someone who deals with slabs like these.
Don't be concerned about the hammer results. I'm quite sure it will be 4000 or so psi. Strength isn't the issue. If this is for a residential garage, you are highly unlikely to produce a load that would ever come close to cracking the concrete. Temperature and shrinkage is your major concern.
Sealing is ok, but you will still see the cracks, as the void of the crack will pull the sealant into itself over time - showing you where the cracks are still, even though there may be nothing penetrating that sealant.
You have said it was cold when they did their work. It may be too cold to perfom effective sealing. I can not speak to that area - just that it does have its temp limits just as concrete does.
Sorry to make this so long. You have a very major decision to make very soon. Please don't take this lightly or let them force you into doing something you may regret.
I hope the info I have provided can help you.
Good luck.
Dan
RE: Hairline Cracks after 3 days
Rebar is not necessary. As for the conversion of the numbers...don't bother. As I said before, they don't mean anything....the rebound number is good for checking the relative consistency, not strength measurement. As you can see from the numbers you gave, there is little difference between the numbers in cracked areas and non-cracked areas.
If the cracks are longer than a few inches and somewhat continuous, they are not plastic shrinkage cracks. Plastic shrinkage cracks occur BEFORE the concrete sets up and are characterized by short, discontinuous cracks where the surface starts to dry and gain some strength before the lower concrete. Plastic shrinkage cracks occur when the surface of the concrete dries faster than the "bleed" water can collect on the surface. This is usually a result of wind blowing across the surface.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
I've done some reading on plastic shrinkage and it looks like the finisher has a lot to do with this occurance. Do I have 2 to blame. I think the finisher has some liability since he waited 3 days to make the saw cuts and did not cover the pad after the pour.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days
Here are some comments from ACI CHAPTER 22 — STRUCTURAL PLAIN CONCRETE (concrete without reinforcement).
R22.2 — Limitations
R22.2.2 — Since the structural integrity of plain concrete members depends solely on the properties of the concrete, use of structural plain concrete members should be limited to: members that are primarily in a state of compression; members that can tolerate random cracks without detriment to their structural integrity; and members where ductility is not an essential feature of design. The tensile strength of concrete can be utilized in design of members when the buildup of tensile stresses due to restraint
from creep, shrinkage, or temperature effects are considered and sufficiently reduced by construction techniques to avoid uncontrolled cracks, or when uncontrolled cracks due to such restraint effects can be anticipated to occur in such a manner that will not induce structural failure or collapse.
R22.3 — Joints
Joints in plain concrete construction are an important design consideration. In reinforced concrete, reinforcement is provided to resist the stresses due to restraint of creep, shrinkage, and temperature effects. In plain concrete, joints are the only design means of controlling and thereby relieving the buildup of such tensile stresses. A plain concrete member, therefore, must be small enough, or divided into smaller elements by joints, to control the buildup of internal stresses. The joint may be a contraction joint or an isolation joint. A minimum 25 percent reduction of member thickness is considered sufficient for contraction joints to be effective. The jointing must be such that no axial tension or flexural tension can be developed across a joint after cracking, if applicable, a condition referred to by the code as flexural discontinuity. Where random cracking due to creep, shrinkage, and temperature effects will not affect the structural integrity, and is otherwise acceptable, such as transverse cracks in a continuous wall footing, transverse contraction or isolation joints are not necessary.
So he may be allowed to use plain concrete, as these cracks seem to be minor and are not detrimental to the slab's integrity. He did use joints, just not in a timely manner. But they were too late, and the cracking had already occurred. Hence the use of rebar. May be overkill, but it would have significantly reduced the cracking before the joints were cut.
These comments said, along with everyone else's you can decide your proper course of action.
I recommend you do the following.
Check with your local building official about reinforcement in slabs (particularly slabs on grade). As mentioned before, was he under contract for rebar? That should have been written down on the contract documents, not implied. Check what your actual weather records were 2-3 days before the pour date and the cure dates following (going on 7 days?). And I mean all facets: temp, wind, and humidity. This will show proper knowledge of near freezing temps and that he should have taken means to prevent freezing in the new slab. Is their evidence of a sprayed-on-membrane as the curing agent for the slab (would look sort of like dried milk)? Was he also under contract to do this also?
Other questions for you. What type of fill did you use? How was it compacted? Did you add water while compacting? Did the contractor add water to the fill just before he placed his concrete? These are going to be valid questions from his part or his representatives if it gets that far.
If you are looking for someone to blame, you really only have one person with whom you should be concerned. That would be your general contractor. He is ultimately responsible for all his subs and their work.
As for the comments of a crack free slab. My garage pad is 26x26 @ 5" deep with 6x6 WWF. Concrete was placed at about 50-deg F. and immediately covered and saw cut (1/2 each way). The slab was then wet-cured for 6 days. The joints were then properly sealed (backer-rod is essential in this process or the sealant may fail).
The pad is on its second winter, with lows in the -20s deg F. and highs about 100 deg F. The garage is uninusulated, so the covered slab has easily seen a temperature gradient of 70-deg F. (a common design factor). The pad is crack free. If it would have cracked, it would have done it as yours did - right away or after the first winter. It didn't and I'm sure it won't.
A crack free pad can be done, not as a gamble, but with proper design knowledge, proper construction methods, and a highly skilled and trustworthy general.
Good luck in resolving your problem. You are going to need it!
Dan
RE: Hairline Cracks after 3 days
Your cracks are unsightly only, it should be fine structurally. Ideally the contractor should have cured with a typical black industrial blanket on the concrete to keep in the heat [and moisture] for 3-4 days where after that the concrete would have reached ambient temperature and the hydration slowed. The other curing methods mentioned can be detrimental in cold weather concrete conditions. Sawcuts are usually cut the next day in many cases due to residential constraints [noise]and slower cement hydration in winter. A floor crack is an unplanned joint, a floor with saw cuts still has cracks but it is tidy. Schmidt hammers do not read concrete strengths much below 2000 psi and there is no spec for in situ concrete, concrete strength acceptance is lab cured test cylinders at 28-days.
RE: Hairline Cracks after 3 days
RE: Hairline Cracks after 3 days