warehouse slab suggestions
warehouse slab suggestions
(OP)
Have a client who is unable to provide us any meaningful information about their light industrial and warehouse slab. They just are useless in this department.
Racks similar to "home depot" and could be that tall (b.o. steel around 26ft), storing rather lightweight boxes of vitamins, supplements, etc. Forklifts similar to home depot, we don't know about the traffic (I'd guess light to medium). We know no other details and at this time in regards to weights, rack post spacing, base plates, etc.
Conditioned space in Florida. Sawcut control joints probably around 10' o.c., not sure about WWF, rebar or steel fibers yet.
I was thinking of giving them a design for a couple of different slab sizes and reinforcing schemes, and give them my basis of design, and then they can choose. Maybe in table form on the foundation plan.
I welcome any opinions, especially on conservative rack point loads and base plate sizes, spacing of rack posts, and slab thickness. I have been told by those in the know that the "Cadillac" of warehouse slabs would be #3 @ 14-18" o.c. E.W.
Semi rigid epoxy to fill the CJs, any favorites?
And probably most importantly, I was not planning on providing dowels at CJs , maybe only at construction joints (pour stops for the day...)
I have Part 2 of the ACI Manual of Practice.
Thanks in advance.
Racks similar to "home depot" and could be that tall (b.o. steel around 26ft), storing rather lightweight boxes of vitamins, supplements, etc. Forklifts similar to home depot, we don't know about the traffic (I'd guess light to medium). We know no other details and at this time in regards to weights, rack post spacing, base plates, etc.
Conditioned space in Florida. Sawcut control joints probably around 10' o.c., not sure about WWF, rebar or steel fibers yet.
I was thinking of giving them a design for a couple of different slab sizes and reinforcing schemes, and give them my basis of design, and then they can choose. Maybe in table form on the foundation plan.
I welcome any opinions, especially on conservative rack point loads and base plate sizes, spacing of rack posts, and slab thickness. I have been told by those in the know that the "Cadillac" of warehouse slabs would be #3 @ 14-18" o.c. E.W.
Semi rigid epoxy to fill the CJs, any favorites?
And probably most importantly, I was not planning on providing dowels at CJs , maybe only at construction joints (pour stops for the day...)
I have Part 2 of the ACI Manual of Practice.
Thanks in advance.






RE: warehouse slab suggestions
RE: warehouse slab suggestions
Don't know much about the soils in FL. Slab thickness will vary based on your subgrade modulus. Based on the limited info so far, this could be 6" to 8" thick.
You are asking for trouble if you don't do something at the joints. I would call out diamond dowels and dowel backets at all joints.
Reinforcing really doesn't do too much as long as the joints are spaced properly and the diamond dowels/dowel baskets are installed. Don't waste the owners money on fibers.
RE: warehouse slab suggestions
k=150pci
I am going to borrow or download ACI360R, I have been told this has pretty much all I need. I know how to run the numbers, though its been a long time.
Any do's and don'ts or recent success stories, etc.?
RE: warehouse slab suggestions
You may be able to find the PCA charts online as well and avoid purchasing the book.
RE: warehouse slab suggestions
Mike McCann
MMC Engineering
Motto: KISS
Motivation: Don't ask
RE: warehouse slab suggestions
RE: warehouse slab suggestions
RE: warehouse slab suggestions
Sika has about ten trillion products.
Check out their website.
I have been simply amazed by the long term flexibility & strength of their joint/crack products.
RE: warehouse slab suggestions
As hawkaz stated, take care of all joints. You will have curling no matter how careful. A curled edge will crack, joint reinforcing helps.
I have had success with Metzger/McQuire MM80. You should note that joint filler will separate due to concrete shrinkage. Place in the specs that the GC will need to come back and repair.
Rack loads as you describe will likely not have much impact on the deisgn. Fork lifts, even lightly loaded will.
RE: warehouse slab suggestions
Is it necessary to fill the joints so soon that shrinkage is a big problem?
RE: warehouse slab suggestions
Shear transfer at the joints is a must. Agree with hawkaz that diamond dowels are a good solution, as are the square dowels with compressible material on the sides (known as Danley dowels here in Australia).
May be too much too soon for your project, but I believe "jointless" floors with steel fibres will be the standard in the future. Rather than slab thickness, reinforcement, concrete strength, even what the slab is sitting on, the joints are most often the problem...and that is regardless of the spacing of the joints.
RE: warehouse slab suggestions
Agree that poly fibers are a waste, though I know some engineers that work with steel fibers in this type of application and have success. I am currently planning on WWR or rebar for shrinkage, thickness sized for forklifts per PCA or Army Corps method, and also doing some rack load checks using other methods I have found. Right now I am thinking a 6" slab will meet all of our assumed criteria.
Is it normal to give a minimum offset of racks from CJs? I guess if you use dowels this doesn't matter quite so much...
So with forklifts, doweled joints or similar are a must, huh? Even light forks carrying a pallet of boxes of vitamins, WWR or rebar cont. through the joints won't suffice?
Also in regards to shrinkage, what about placing these in staggered strips, and then infilling a couple of days? This allows free movement in the short direction, and then you have CJs in the long direction.
Good point on the filler, my research has indicated the best method is to have the joints filled as late in the construction process as possible. Hopefully at least a couple of months or more will have passed while they build out the office and do exterior finishes. This will minimize the amount of opening of the joints.
Thanks for all of your input.
RE: warehouse slab suggestions
RE: warehouse slab suggestions
SIKA LOADFLEX 2 IN HEAVY TRAFFIC AREAS
SIKA DUOFLEX SL IN MODERATE TRAFFIC AREAS
SIKA DUOFLEX SL IN LIGHT TRAFFIC AREAS
Critical that sawcutting be done at the right time. Joints can be 1/4" wide to get sealant in place, and for a 6" slab, 1-1/2" deep and for an 8" slab, 2" deep. I place rfg at 1-1/2" clear cover for 6" and 2" clear cover for 8".
Rack loading, depending on the loads can be critical for elastic tensile stresses. Point loading can increase or decrease flexural tensile stresses, depending on the spacing, concrete strength and soil modulus. I use an old (30 years approx) PCA airport pavement program to calculate concrete flexural stresses.
I use 6mil PEVB under slabs (some people swear by them some at them) and 6" well compacted 'A' base to 95% MPDD. Curing the slab is critical, also.
Dik
RE: warehouse slab suggestions
Thanks for the other suggestions.
I just found what appears to be a very well done and well-documented Excel program on this very subject, I downloaded it and no viruses and it looks good. Have not had time to play with it yet, gotta go hang with the wife before bed here or I am in trouble.
Google- "GRDSLAB" Program
RE: warehouse slab suggestions
RE: warehouse slab suggestions
GRANULAR 'A' (GRAVEL)
CRUSHED ROCK COMPOSED OF HARD DURABLE UNCOATED FRACTURED FRAGMENTS PRODUCED FROM ROCK FORMATIONS OR BOULDERS OF UNIFORM QUALITY, OR A MIXTURE OF CRUSHED GRAVEL, SAND AND FINES COMPOSED FROM NATURALLY FORMED DEPOSITS ONFORMING TO THE PROVINCE OF MANITOBA SPECIFICATIONS FOR AGGREGATE FOR GRANULAR BASE COURSE FOR CLASS A
FILL SHALL CONFORM TO:
SIEVE SIZE (ASTM) PERCENT PASSING
3/4 INCH 100
5/8 INCH 80-100
NO 4 40-70
NO 10 25-55
NO 40 15-30
NO 200 8-15
Dik
RE: warehouse slab suggestions
Dik
RE: warehouse slab suggestions
With forklift traffic, I would dowel the joints. Others have suggested plate dowels. They're not common in our area but they work reasonably well for light loads. Otherwise, use standard pavement dowels, as long as the slab thickness is at least 6".
I like Sika products as well, but have also had good success with W.R. Meadows Rezi-Weld Flex, a semi-rigid epoxy joint filler.
As for the racks, design for the maximum capacity of the rack, not the stated inventory. Require that rack capacities be posted on the racks and on the walls.
You won't be able to avoid racks bearing near control joints. Obviously, see if you can get a rack layout before designing the slab. Punching controls. k=150pci is fine...you could go to 200, but it won't make much of a change in the thickness.
Slab on 10-mil vapor barrier over compacted sand is fine. Done all the time. Put some controls on the "flatness" tolerance of the subgrade as well as the slab...that will help meet thickness tolerance requirements and cut down on "random" cracking. Steel fiber in lieu of WWF is a very good change. I have experience with steel fiber in slabs, exterior and interior...good results. Have one that I designed for an approach apron for loading dock and dumpster area in 1987....still performing great.
Make sure the mix design uses the largest coarse aggregate practicable for the application. The contractor will want to pump the slab, but if so, make sure that you stick to a large aggregate to cut down shrinkage and assist in load transfer (although that doesn't really work very well). This is not the type of job to use a 2" Mayco pump behind a pickup truck.
Stick to your guns on the timing, depth, and spacing of control joints. Important.
Require a flatness tolerance...Ff of 30 or more.
Good luck.
RE: warehouse slab suggestions
In my work in Florida on projects like this, we have used crushed concrete, lime rock, Bahama Rock, and some FDOT road base under the slabs. The projects were sand was used as the base had significantly more cracking and curling. While we could never be 100% sure that sand was the problem, we theorized that the excessive fineness of the sand allowed for rutting and pour clogging issues. Once we went to aggregate bases the issues seemed to be greatly minimized.
One other thing that we found help, was a 7 day wet cure. The afternoon sun would heat and dry the concrete and destroy disapating compounds far too quickly (the buildings were tilt wall, so slab was exposed to the sun).
RE: warehouse slab suggestions
Completely agree on a 7 day wet cure, I will give that a shot. I know it goes a long way towards crack control. Seems like projects take forever sometimes in design, and financing, and then they have to build it yesterday, so of course there will be resistance but I can explain the benefits of less cracks pretty easily.
RACKS- again, the owner has no idea what they will use, they literally at a meeting said something like home depot in regards to racks and forklifts. Does anyone have a conservative suggestion, website, etc., where I can at least consider some type of reasonable rack loading, ie, 10" sq base plates, 6ft on center, 10kip axial.... Or should I literally go to home depot with my tape measure and assume Xkip per post.
Also in regards to shrinkage, what about placing the slab in staggered strips, and then infilling a couple of days later? This allows a much less restrained movement in the short direction, and then you have CJs in the long direction. Will the complaint be the amount of formwork they have to use at every strip? But the positive is you have easy access to run screeds and finish each strip...
Thanks all for the advice!
RE: warehouse slab suggestions
RE: warehouse slab suggestions
It is more difficult to implement, increases the placement cost and the benefits are not enough to warrant it.