How to Build a Stucco Raised Planter, In Pictures, Part II
The following is Part II of a photo guide showing one method for building a raised planter out of masonry. You can find Part I of this article here. This example comes from our backyard. Please read the Disclaimers from Part I before even thinking about starting this project because some things you may want to do differently.
In Part I, I covered how to build the footing for your Raised Planter and by now you should have laid out the first course of blocks onto that footing as seen below.
Beginning Part II
10. Lay the first course of blocks out “dry”. I’m not saying you can’t have a sip of your favorite alcoholic beverage. What I mean by “dry” is without any mortar. Just set them in place. Having a beer beforehand may improve your enjoyment of building this planter but not necessarily the quality.
You could use a string line to make sure your wall is straight or if you’re not fussy and want something more rustic and hand-made looking, just use your eyeball to sight along the wall for straightness. In the photo, this particular planter has to line up with other existing planters. If you’re only building one planter, you might not have to worry about that. If you’ve had one too many beers and are seeing double, then always pick the row of blocks on the right (or left, just stay consistent).
The same goes for squareness. You could create a 3-4-5 triangle to check for squareness or just eyeball it for a more ‘human’ (i.e. imperfect) look. Or you could use a large carpenter’s square if it makes you feel better.
Don’t forget the wall is going to “grow” in thickness by about 1/2” after bonding and finish stucco coats. So, if you’re lining things up with other objects, don’t forget about that extra poundage that goes on the wall.
Variations in the bottom of the blocks and foundation may cause some blocks to tip a little, side-to-side. It’s OK, we’ve all been a little tipsy now and then in our lives. A little tippiness (let’s say up to 1/16”) is generally OK and will be fixed when stuccoing the blocks in a later Step. You can even out these tippy blocks with mortar or smooth out the bottoms using a grinder if it’s really bad. The only problem seems to be if you’ve got one tippy block atop another, atop another, etc. Then, it’s like a pig-pile at a college frat party and will likely end in the same way – a collapse and one mighty mess to clean up after the party’s over. So, change out or fix the tippy ones if they are really bad or one atop another. You’ll be like the block cop. Yank out the scofflaws, exchange them for good ones, fix them, or put them where they can’t hurt nobody.
11. Here’s one brand of Surface Bonding (SB) cement that is available locally through special order. It comes in grey or white, sanded or unsanded. Get the grey sanded version because it is the easiest to use and gives a good appearance (if you choose to use it as the final coat). Also the sanded finish presents a rough surface for subsequent coats to stick to. One 50lb bag covers about 50sqft conservatively and costs $17-21 per bag.
Buy extra bags because you never know what might happen and they usually take about a week to order in. You don’t want to be caught a bag short and a week away from another one or you will feel like a crack-addict. Don’t get stuck without a fix, order extra, it’s relatively cheap compared to the consequences.
Since SB cement hasn’t become wildly popular, they tend to sit around the warehouse (I suspect) and some absorb a little water and become chunky-style and hard to use. Another reason to buy extra bags, you will need to throw out the chunks (or whine complain and scream mightily until your source gets you some fresh bags).
12. Mix your SB cement to a thick slurry as shown in the video (produced by Quikrete). Unlike the video, I’d recommend using a heavy-duty, low-speed drill (about $130) and a paddle mixer ($15) in a 5 gallon bucket.
I’d also recommend only mixing a small amount at a time, such as 10-15 lbs, and not a whole bag at once, especially if it’s your first time and you don’t have an assistant. This stuff sets up fast (you have maybe 25-40 minutes) so don’t mix a whole bag at once until you know what you’re doing. Otherwise, you might end up with a bucket full SB cement the consistency of bread dough, unable to spread on the wall, only good for molding into an amorphous block (art project) or for making a relief impression of your butt which you can then gift to your friends. That’s all.
This time period also depends on the weather. Hot weather is difficult to work in. We’re so very lucky that we have many, many dreary days in the NW. So lucky.
SB cement is very sensitive to the amount of water you add. You may think you need more water, but if you don’t thoroughly mix in the water that is there, it might suddenly get very soupy with the addition of more water. And you can’t take water away. You can only add more mix to thicken it up.
To make it even trickier, the manufacturer’s instructions recommend not to over mix the cement either, or you will “filamentize” the reinforcing fibers (break them). I honestly don’t know at what point filamentization happens or how you would know it happened. Best to just stop mixing when it looks ready I guess.
The SB mix will go into an initial set after about 10 minutes and start to get very stiff; too stiff to spread against the wall. What you need to do is re-mix it a bit with a small amount of water. This is called “tempering” the mix and after this first temper, it will be easier to work for a longer period of time. Don’t temper too many times or the mix will lose strength (maybe twice max depending how much time has elapsed).
Butter the footing about 1/4″ thick with SB cement using a trowel. Choose a small trowel, like an edging trowel because it’s very versatile and you can scoop right out of the bucket with it. The method is to pick up one or two blocks at a time in your layout, being careful not to disturb adjacent blocks. This way, you can use the adjacent blocks as your guide, since you already laid them out. After buttering the footing, replace the blocks you just removed, lining them up with adjacent blocks as guides. The video above shows them using a chalk line to align blocks. The problem with that is your chalk line becomes obliterated by the slurry you’re buttering the footing with.
The video shows fine-leveling every few blocks with a bubble level. If you spent the time to make sure your footing was level, with no bumps or dips, then leveling every block in the first course is not necessary. Just press the blocks into the slurry as far down onto the footing as they will go. If you do try to level the first course of blocks, then you must also make sure the tops of the blocks are at the same height too, since the leveling mortar adds height. I’d rather make sure the footing is level and any minor imperfections will be compensated by averaging of the block imperfections, the stucco, and the cap.
Keep the surfaces moist that your applying the SB cement to. If the blocks or concrete footing is too dry, it will suck the moisture right out of your SB cement mix making for a weak, incomplete cure. However, don’t overdo it and have puddles of water either. I recommend getting one or two good water sprayer bottles to wet down dry surfaces during SB cement application. Trying to mist from a garden hose tends to get out of hand when your working with the mix. The garden hose is great for initial wet down and post cure wet down. But if you’re dealing with a wet cement mix, an errant squirt of the hose can really destroy a portion of your work pretty quickly.
After bonding the first two blocks, repeat the procedure for the next one or two blocks and work your way around the wall. When you complete a side, double check your blocks for straightness, just in case something got knocked out of place. After you made your way all the way around, clean your tools, sit back, and let the SB cement fully cure.
Some final notes on the video:
A) Too much colorant can reduce the strength of the SB cement. If you’re going for a really saturated color, you will need to do that in a finish coat that goes over the top of the SB mix. Follow the manufacturer’s instructions for maximum allowable dosage of colorant.
B) SB cement makes a pretty good final finish coat, but you will still see the reinforcing fibers in the final product. Some people don’t like the look of little glass fibers in the final finish. However, it does save you money and time for the SB coat to be the structural and finish coat all in one.
13. This is what your planter should look like after the first course has been buttered and bonded to the footing. After the slurry for the base row has fully cured, it’s time to dry-stack your blocks. This is when the wall really starts taking shape fast.
14. See how fast that was?! Start grabbing blocks and “dry stacking” them in a “running bond” pattern where the joint between two blocks always lands in the middle of a block below as shown in the picture above. If you have any seams that line up with the row above or below it, you’re doing it wrong, adjust your pattern. Otherwise, it will create a weak spot in the final product.
Don’t worry too much about blocks that are a little tipsy. Remember what I said about being a ‘block cop’ way back in step 10? Again, the bottoms of your typical concrete block are a little uneven because they are meant to be laid in a bed of mortar. A little bit if tippiness (about 1/16” gap) will be fixed when you apply the SB cement. If you have a really tippy block, you can level it using mortar or SB cement. Or you can grind down unnecessary protrusions on the bottoms of blocks with a grinder fitted with a concrete cutting blade or grinding wheel or a by hand using a grinding/finishing block available at any big box or concrete supply store.
15. After dry stacking a row, site down the blocks again to make sure the wall is still straight. In the wall above, you can see how it is aligned with the adjacent planter and there is a slight bow inward.
Chances are you wont be able to get a perfectly straight line because of a combination of variations in the blocks and footing. However, it’s going to be OK, folks. It all depends how you want it to look and whether that additional effort really pays off. If you intend to put a cap on the wall that is wider than the wall itself, then you can make up for small imperfections by making sure the cap is straight. If you have a little bowing of the wall, just make sure it bows inward toward the center of the planter. Then, it will actually strengthen the ability of the wall to resist internal soil pressure. And a slight bow will not be seen once the wall is capped.
16. Follow the directions for the SB cement (above in step 12) and stucco the outside of the wall. Be sure to spread it to the proper thickness (min 1/8″ thick). You can do a wall of this size using the edge trowel mentioned in combination with a pool trowel. A pool trowel is similar to the rectangular trowel shown in the step 12 video except it’s oval – so there’s less chance of catching a corner. Have your spray bottle handy to lightly mist the wall and stucco as necessary.
17. After the outside coat has fully cured you can carefully climb over the wall to do the inside coat. Set up some blocks to be able to step over the wall without placing weight on the wall and possibly damaging the outer skin. Note that little pipe sticking out of the ground is for irrigation.
First fill in the inside corners with either SB cement or mortar to create a fillet relief. This will help prevent cracking of the SB cement at this sharp transition. Let it cure and then go over with the skin of SB cement.
18. After the SB cement has cured, fill the block cores that had the rebar “pins” in them (see Part I) with a wet concrete or mortar mix and stick a piece of 1/2 rebar inside for reinforcement. The rebar should extend from the top of the footing through all the blocks and be about 1 inch shorter than the wall height.
Concrete and cement products based on Portland Cement (everything you see here) require about 28 days to reach full strength. During that time, these products also need moisture to cure and gain strength properly. Not having enough moisture can lead to cracking and/or a weak mix that will deteriorate faster. Keep your planter moist for 1 to 4 weeks by watering daily for the first week or two (especially if the weather is dry). If you can spare the expense, covering the whole thing with plastic also helps to retain moisture.
Congratulations, your planter is almost finished! In Part 3, we will cover capping the wall and adding a finish coat.
Best information on building planters I’ve seen, great job. I want to build two of these in my yard at Mobridge, SD. I’m concerned about the planters cracking due to the soil freezing in the winter. Comments, suggestions?
Thanks Charles, glad you found the article useful.
I would say you’ve got a couple challenges.
This article was written for our climate in Edmonds, WA (USDA zone 7). As you may know, the frost line is much deeper in South Dakota than it is here in Washington. Our frost line is at 12″ here, I don’t know about where you live but it must be quite deep (36″??) And the bottom of your footing needs to get under the frost line so your planters don’t heave, bend, and ultimately break. This means your wall (or footing) will be much taller overall, considering the underground portion.
The other problem is the expansion of soil in the planter itself. I’m sure the entire soil content could potentially turn into a giant ice cube where you live. You can buy ‘bond beam blocks’ which have an open channel along their length where you lay rebar in them and fill them with concrete making a very strong beam within the wall. In this strategy, you are trying to resist the expansion forces of the soil. You would have to do some calculation to figure out how much strength you need to build into the wall. It would have to be quite a bit of strength, and I would suggest using 8″ wide block (at least) instead of the 6″ block shown here.
Both the above requirements will raise the cost/amount of work quite a bit. Perhaps in northern climates, the advantages of masonry planters must be considered more carefully. Maybe a wood or composite board planter would be better in this case because it can flex?
Another strategy that I have been playing with (and will have an article on in the future) is placing hoop houses in the planters. If you keep water out of your planters then there will nothing to freeze and expand. Good soil that isn’t too heavy has a lot of air pockets in it which will absorb expansion if those air pockets aren’t full of water. A little moisture will be OK if the soil isn’t too heavy.
Hoop houses are metal or plastic hoops of bent tubing that you place plastic sheeting over for a greenhouse effect. The primary use of hoop houses is to extend the growing season but they also achieve two other things that will be helpful to you: they prevent rain water from entering the planter (if you run the plastic over the edge of the wall to divert water from entering the planter) and they keep the soil warmer. The disadvantage is that you must be diligent in doing it every year, you can’t miss a year or even a month of freezing temps, or have the plastic come off in windstorm, etc.
Hope that helps!
I found your instructions via Google, and was pleased to find you live in Edmonds..specifically due to your footing depth comments. I have a few questions for you, and I’m hoping you will be able to take a few minutes to give me your thoughts.
My project is a raised planter in front of my home, adjacent to an exposed aggregate driveway and walkway. I’m going to build it approximately 2′ tall and it will be covered with veneer stone instead of stucco.
Here are my questions:
1. In your opinion will a 4″ base of rock (5/8 minus) on top of a compacted soil and a 6″ thick footing be adequate to support the Dplanter walls? The planter is L shaped when looking at a plan view.
2. I am planning on using 4″ CMUs to build the wall. Primarily because I want to keep the wall caps as narrow as possible. If the inside dimension of the planters are approximately 24 inches wide, do you think I need to add any reinforcement to prevent the walls from failing due to outward pressure from the soil? I’m hoping the dimensions are small enough that the forces will be relatively small.
3. I’m going to grow Japanese Blood Grass in the planter. I love the look of this grass. I realize it is considered a weed, is non-native, and invasive. Since it does not seed, do you think there are any issues with growing this only inside the raised planter? I don’t want to cause problems for the local ecosystem. But, I can’t help it…I just love the look of this stuff.
4. Do you water proof the inside surfaces of your concrete blocks? Any recommendations on what to use?
Last, since you built your raised beds, have you had any issues with the footings cracking or any other issues?
I really appreciate you posting your instructions online. Best I’ve seen. Hope you enjoy the rain. I forgot that it even rains here in Western WA!!
Hi Mike,
I’m glad you found the instructions helpful. Before I answer your questions, as usual I must disclaim that all this info is to be used at your own risk. This is free ‘internet’ info – there are no guarantees offered. Also, you are responsible to build per all local building codes. I am not a consultant, I am just some guy saying what I did.
The answers to your questions are below. But first, you mention you are not going to use stucco but veneer stone. I want to clarify that this process requires the application of surface bonding cement, which is in itself, stucco. So, I assume you mean you’re going to put the veneer over the surface bonding stucco, which is fine.
1) As far as supporting your planter, a 6″ thick rebar-reinforced footing of adequate width on a 4″ thick, 5/8 minus base that has also been compacted, which in turn is on top of compacted soil sounds pretty darn good to me. As long as it’s all compacted (both soil and rock) and your soil isn’t the type that expands (rare around here), that should be fine.
However, as far as frost heave, don’t forget it’s the bottom of the FOOTING not the rock base that must be at least 12″ below ground to avoid frost heave which is a completely separate issue than properly supporting the wall, in my mind. This means if you want a 2′ of wall above ground, your wall must be at least 2’6″ tall with 6″ of wall buried under grade to get the bottom of your 6″ thick footing at or below 12″.
I know in the article I said I put the bottom of my footing above the frost line. However, I am essentially a mad scientist when working on my own plot of land. I wouldn’t do that for any client unless they signed a waiver. DIYers beware!
I shouldn’t have used that as an example, that’s what I had at the time.
In my experience at my Edmonds house, we’ve had a couple really cold stretches in recent years and there’s been very little frost penetration where I live. I’ve lived in Seattle most of my life and the worst I’ve seen is maybe 4″ absolute tops. More importantly, I’m willing to take responsibility for my own personal risks. If it cracks, it doesn’t faze me for this application; it’s in the backyard, it’s just a planter, and I have theory about how artful hand-made patches in a rustic setting makes for a more humanistic garden (hey, it’s a theory I’m working on).
But for others: If you’re going to build above the frost line, be willing to take responsibility if it breaks due to frost heave. I would never build anything important, like a house foundation, above the frost line, but a raised planter, in the backyard, built with footing about 6″ below the frost line on a well drained rock surface, I’m willing to take that risk at my house to save me time and money.
2) For the 4″ thick wall, I wouldn’t build a 4″ thick wall myself unless it was reinforced. A wall’s resistance to bending drops exponentially as the thickness lessens. So only 2″ thinner can drastically reduce the wall’s resistance to bending. And masonry doesn’t ‘do’ bending well at all.
It’s not the everyday retention forces of the soil I’d be worried about. Two feet of soil practically retains itself. However, in the winter when it freezes, the expansion of the soil can create a great force on the wall depending on many variables.
Pure water freezes with incredible expansion forces in the range of 1000′s of pound per square inch depending on how cold it gets. Luckily the soil buffers this force with air pockets and it can expand upward somewhat, relieving part of the pressure.
For any planter, it’s a good idea to maintain a good porous garden soil, make sure your planter is well drained, and cover with a thick mulch in winter if possible. Use plenty of organic matter and don’t use clay soil to fill the planter. Of course if you make it too well drained (e.g: use lots of drain rock) that’s not good for your plants. A balance is required. I would also add that you should try to divert water away from your planter during the winter month to keep the water content down (don’t direct a downspout into it during winter and limit any irrigation to just enough to keep plants alive thru winter, for example). Saturated soil in a poorly drained planter that freezes is bad news. In winter, try to keep just enough water to keep the plants alive.
A 4″ thick wall is risky though, even for a self-proclaimed mad scientist such as myself. How badly do you want to save those 2 inches?
3) Go ahead and plant the Japanese Blood Grass and don’t worry about it! It is only invasive in warm and wet environments. We have the wet here in Edmonds and sometimes it’s warm, but we don’t have wet-and-warm for any significant amount of time. It’s not that vigorous a grower around here.
Don’t forget to backlight the grass to get the best effect on those translucent red blades, whether from sunlight or landscape lighting.
4) The surface bonding stucco is very resistant to water. Not 100% waterproof but effectively waterproof (You can look up the specs for this product. I know I’ve seen this listed somewhere). So, if you built with this method, you’ve also essentially waterproofed too. You can make a garden pond out of these planter boxes, this I know from experience. I’ve also used the SB cement to patch leaks in earthenware containers being used as water gardens, with good results.
5) The only wall I’ve had crack was a footing-less experiment planter (again something I built as a test at my house, mad-scientist style) sitting only on a compacted rock base. I’ve since patched the cracks and added a bond-beam to the top to reinforce it (it’s still footing-less). We’ll see how that performs going into its 2nd winter now without any new cracks. But I wouldn’t do that again!
Hope that helps
Wow, thanks for the reply! It is much appreciated. I’m trying to keep the wall narrow to keep the wall caps narrow compared to the planter area. That might make no sense though. I’ll go with the 6″ Standard CMU and reinforce it.
Thank you for the great reply.
Mike
What happened to Part III?
Hi Ed,
There’d be nothing better than if I could write these articles for a living. Unfortunately, I don’t get paid for doing them. Long story short, I’ve got to prioritize what pays the bills. In addition, if you read the article I wrote on Peak Oil, you will get a sense of the new direction I am going in and I’m not sure such things as raised planters built out of concrete are necessarily a priority in that context. If I suddenly get enough free time to write part III, I’ll do it. Thank you for inquiring.