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How to Build Retaining Walls Stronger

We'll show you how to build an attractive retaining wall that's firm, solid and will stand the test of time. It features a solid base, compacted base material and good drainage. The masonry wall looks great from the front, too, and will enhance the look of your yard.

By the DIY experts of The Family Handyman Magazine

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    The project takes a strong back. But stacking the masonry blocks is pretty simple and straightforward.

How to Build Retaining Walls Stronger

We'll show you how to build an attractive retaining wall that's firm, solid and will stand the test of time. It features a solid base, compacted base material and good drainage. The masonry wall looks great from the front, too, and will enhance the look of your yard.

By the DIY experts of The Family Handyman Magazine

How soil “pushes” (and how to build a wall that pushes back)

When you contemplate the retaining wall you're about to build, you may imagine how firm and solid it'll appear from the front, or how great the new garden will look above it. But unless you give serious thought to what goes on behind and below the wall, it may not look good for long. A poorly built wall can lean, separate, even topple—and it's out there in plain sight where all your neighbors can point and snicker. You don't want that!

Lots of people think a retaining wall needs to hold back all 6 gazillion tons of soil in the yard behind it. It doesn't. It only needs to retain a wedge of soil, or elongated wedge of soil, similar to that shown in Fig. A. In simple terms (our apologies to all you soil engineers out there): Undisturbed soil—soil that has lain untouched and naturally compacted for thousands of years—has a maximum slope beyond which it won't “hang together” on its own. This slope is called the failure plane. If left alone, the soil behind the failure plane will stay put on its own. But the soil in front of the failure plane—the natural soil or the fill you're going to add—wants to slide down the failure plane.

Gravity, along with the slope, directs most of the weight and pressure of the fill toward the lower part of the retaining wall. Since soil weighs a beefy 100-plus lbs. per cu. ft., you need some pretty heavy material—large retaining wall blocks, boulders, timbers or poured concrete—to counteract the pressure. Just as important, it needs to be installed the right way. Here are three key principles in building any solid retaining wall:

  • Bury the bottom course, or courses, of the retaining wall one tenth the height of the wall to prevent the soil behind from pushing the bottom out (Fig. B).
  • Step back the blocks, rocks or timbers to get gravity working in your favor (Fig. B). This lets the walls lean and push against the fill. Walls built perfectly vertical (Fig. C) get gravity working against them the second they start leaning outward even just a bit. Most concrete retaining wall block systems have some kind of built-in lip (Fig. D) or pin system (Fig. F) that automatically creates the step back as you build.
  • Install a base of solidly compacted material (Fig. B) so your wall stays flat. A level wall provides modular blocks, stone and timbers with more surface contact with the courses above and below them. They fit together more tightly. The more contact, the more friction and the stronger the wall. Apply these three rules, and you'll create a strong wall. But even a well built wall won't survive unless you take care of two troublemakers: water and uncompacted soil.

A retaining wall only needs to hold back a wedge of
soil, not everything behind the wall.

Figure A: What a retaining wall retains

A retaining wall needs to retain all the material that fills the space between itself and the failure plane—the steepest angle at which existing soil can hold itself together before caving in.

Uncontrolled water weakens walls

Water can weaken retaining walls by washing out the base material that supports the wall (Fig. E). But far more frequently, it causes problems by building up behind the wall, saturating the soil and applying incredible pressure. That's when walls start leaning, bulging and toppling. Well built walls are constructed and graded to prevent water from getting behind the wall and to provide a speedy exit route for water that inevitably weasels its way in.

Take a look at the well-drained wall in Fig. D. The sod and topsoil are almost even with the top block, so surface water flows over the top rather than puddling behind. Just below that is 8 to 12 in. of packed impervious soil to help prevent water from seeping behind the wall. The gravel below that soil gives water that does enter a fast route to the drain tile. And the perforated drain tile collects the water and directs it away from the base of the wall, escorting it out through its open ends. There's nothing to prevent water from seeping out between the faces of the blocks, either; that helps with the drainage too. The wall even has porous filter fabric to prevent soil from clogging up the gravel. What you're looking at is a well-drained wall that will last a long time.

Now look at the poorly drained wall in Fig. E. There's a dip in the lawn that collects water near the top of the wall. There's no impervious soil, so the water heads south, slowly waterlogging and increasing the weight of the soil packed behind the wall. The homeowner put plastic against the back of the wall to prevent soil from oozing out between the cracks—but it's also holding water in. Yikes! There's no drain tile at the bottom—the trapped water can soak, soften and erode the base material. Not only that, an excavated trench that extends below the base lets water soak into the base material and weaken it. You've got a retaining wall that has to hold back tons and tons of water and saturated soil—and when that water freezes and expands in the winter, matters get even worse.

A well built wall starts with a solid base.

Figure B: A Well-Built Wall

A strong wall features well-compacted base material, compacted material in front of the wall to prevent kick-out, and stepped-back materials.

A wall with an uneven base will fall over.

Figure C: A Poorly Built Wall

A wall that has an uneven base, no compacted material in front of it and no step-back to the materials will eventually fail.

Poor compaction adds pressure to walls

Even if you have only a small wedge of soil to retain like that shown in Fig. A, compaction is important. If your failure plane is farther back so your wall needs to retain more fill, weight and pressure, then compaction and a reinforcing grid become critical. These two things help increase internal friction and direct the pressure of the fill you add downward (Fig. F), rather than at an angle pushing against the wall. Good compaction doesn't mean dumping a couple of feet of fill behind the wall, then jumping up and down on it in your work boots.

Nope, good compaction means adding 3 or 4 in. of material, compacting it with a heavy, noisy vibrating plate tamper from your friendly neighborhood rental yard, then repeating these steps over and over. Your landscape supplier or block manufacturer (if you're using modular blocks) can tell you whether you need to install reinforcing grid, and at what intervals. The taller the wall, the more likely you'll need reinforcing grid.

Never backfill with, or compact, topsoil; it will break down and settle, creating a water-welcoming trench behind your wall. Use sandy or gravelly materials, which compact much better. And always make certain you don't become overzealous and compact your wall outward.

A wall has to be able to deal with water, or the water
will push the blocks out of place.

Figure D: A Well-Drained Wall, and Figure E: A Poorly Drained Wall

From top to bottom, a well-built wall either prevents water from getting behind the wall or ushers it away quickly when it does.

Water trapped behind a wall pushes against it and increases the weight of the soil, which also pushes against it.

Timber walls, tall walls, building codes and other stuff

By themselves, landscape timbers and railroad ties lack the weight to hold back soil. To make these walls strong, you need to add “deadmen,” anchors that lock the wall into the soil behind them (Fig. G). The same pressure that's pushing against the wall pushes down on the deadmen to keep them (and therefore the wall) in place. The principles of stepping back, installing good drainage and compacting also apply to timber walls.

Walls of any material that are taller than 4 ft. play by the same rules—it's just that the wedge of soil is too big and heavy to be held in place by the weight of the materials alone. Some communities now require building permits and construction details for walls exceeding 4 ft. in height. We think that's a good idea too. Many modular block manufacturers can supply printed sheets of structural information.

For tall slopes, a series of tiered walls is a good substitute for a single tall wall. But an upper tier can apply pressure to a lower tier unless it's spaced the proper distance—you know, behind the failure plane. The rule of thumb is to set back the upper wall twice the height of the lower wall.

Compacted soil combined with a reinforced grid
puts less pressure on the wall.

Figure F: Compaction and Reinforcement

Compacting backfill in 3- to 4-in. layers and installing a reinforcement grid directs pressure downward, rather than against the wall.

Use a “deadman” when building a timber
retaining wall.

Figure G: Deadman not Walking

A “deadman” helps anchor a timber wall in place. The same pressure that's pushing against the wall is pushing and holding the deadman—and therefore the wall—in place.

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Required Tools for this Project

Have the necessary tools for this DIY project lined up before you start—you’ll save time and frustration.

    • Hammer
    • Tape measure
    • Level
    • Rubber mallet
    • Spade
    • Utility knife

Compactor, If you build a timber wall, you'll need a circular saw to cut the timbers to length.

Required Materials for this Project

Avoid last-minute shopping trips by having all your materials ready ahead of time. Here's a list.

    • Masonry block system
    • Gravel
    • Landscape fabric
    • Drainage tile
    • Impervious soil
    • Reinforced grid material

If you choose a timber wall, you'll need timber and “deadman” anchors.

Comments from DIY Community Members

Share what's on your mind and see what other DIYers are thinking about.

1 - 6 of 6 comments
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April 21, 12:17 PM [GMT -5]

Great advice!

April 24, 8:35 PM [GMT -5]

Good Article. I will be fixing a wall I built 6 years ago that ran into the problem of back pressure (Fig. E). I had gutters run through a pipe to drain outside the wall, but ran into a problem when the gutters clogged at the junction to the piping with leaves and all the water off my roof ran into the inside of my retaining wall. SO, I will be doing this again. Thanks for the tips for this time!

September 27, 8:34 PM [GMT -5]

I will be building A railroad tie retaining wall. It will be between 4&5 feet high and around 100 feet long. It is a mowable slope. There will need to be 2-3 more walls above this added later. I need to know what is the rule of thumb for how many feet should be between deadmen and every how many layers.

August 14, 11:49 AM [GMT -5]

I just built a LARGE retaining wall (65' x 7'). I had a lot of backfil room (about 40 tons of Road Gravel). Now, in the morning (regardless of rain) some random rows have one to two inches of wet area, as if water is draining through the cracks of the wall.

I don't understand why it is an even one to two inch area along several blocks, that inconsistently appear.

Any ideas?

August 11, 10:52 AM [GMT -5]

I'm going to build a retaining wall but I want to know how to do it first. I was looking for this type of information!!! It seems other internet sites (even DIY sites) like to keep this info a secret.

June 21, 2:13 AM [GMT -5]

We are done excavating are just getting started on our retaining wall and this article had lots of helpful information and great illustrations. The part on proper drainage was especially helpful. I know our project will be a success thanks to this article!

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