Post by ogeezer on Jun 7, 2007 12:07:36 GMT -6
Pier and pad foundations are very popular for the do-it-yourself builders. One doesn't need to be an engineer or have a whole helluva lot of building experience to utilize it.
Pier & Pad systems have been around for many years and is still popular b/c of its versatility and low cost. Unlike homes built atop solid concrete (slab) foundations, homes constructed on top of pier & pads can be picked up and moved by professional house movers.
Mild Climate Footings
In mild winter climates (12" or less frost depth) and well drained soil, there is little chance of freezing soil lifting the footings and piers. In this case you can dig down into the soil 12" or more and either pour a concrete footing or fill the footing hole with clean crushed rock. The size of this footing hole should be a 16" diameter circle or square for gravel or rocky soils and a 24" circle or square for soils with mostly loam, loose sand or clay. The footing depth should be 1/2 the width or more.
Make sure the bottom of the footing rests on undisturbed soil free of organic material. Don't build on fill or soil that has been dumped on the site (unless it is uncompressible material such as crushed rock). Your footings will spread out the total weight of the building over the bearing soil. Good solid material under these footings is essential. When in doubt, make the footings larger thus reducing the load per square foot (think snowshoes effect).
Cold Climate Footings
In colder climate areas you need the same footing but it will be at the bottom of a deeper hole so that the bottom of the footing sits on soil that is below frost depth. Coming up from the footing will be either a pressure treated wood post or a concrete pier made out of mortared blocks or a poured cardboard tube. Pour a concrete footing first with a cross of 1/2" (#4) rebar to reinforce and tie into the pier. Set these bars on rocks or broken brick so that they sit 3" up from the bottom of the pour. Wire a section of rebar vertical and this will tie into another bar running up the core of the concrete pier. Overlap sections of bar 12" to 15". The center of your tube or block pier will be poured with concrete and tie the footing and beam straps or brackets together with a reinforced concrete pier. The tube pier is shown at left.
Block Piers
You can also build your piers from 8 x 8 or 12 x 12 concrete blocks. For short piers use the smaller blocks, for taller ones go larger. Tube piers come in various diameters as well and larger ones should be used on the downhill side of a sloping site where they will stand higher. A safe rule of thumb is that a pier or post should not exceed 15 (for concrete) or 20 (wood) times its width in unsupported height.
When using concrete blocks for your piers, the footings must all be level in order for the piers to be level under the beams. If you have to change footing levels they must be in 8" increments. With poured tubes you can cut them off level prior to filling so the footings can be at different levels. Check for level using an inexpensive water level made from clear tubing. Run this from footing to footing or from tube to tube using the shortest pier as the master.
Setting the Tops of the Piers
Set the height of the piers so that there is a minimum of 12" under the beams and 16" under the floor joists of the built platform. This will allow enough separation between soil and wood and allow for plumbing, wiring and insulation to be worked on from below.
Wood Post Foundation Piers
When using wood posts get foundation grade 6x6 treated poles or posts. You can cut these level later so footings do not have to be at the same level. When using a gravel footing, nail a square of pressure treated 2x10 to the bottom to act as a foot. Use only hot dipped galvanized, "Z-max" or stainless steel nails and bolts with PT material. Don't rely only on the bolts to hold the beams. Notch the posts and then bolt or set the beams directly on top of the wood posts and connect them with appropriate metal brackets.
Getting the beams level and in the right place is more easily done by clamping or lightly nailing the metal connector or posts to the beam, then leveling the beam in its proper location with temporary bracing. Leveling is best down by using a builder's dumpy level or transit and a skilled professional ..OR.. using a waterhose filled with water.
Once the beams are level in accordance to all the others, pack the hole with a well drained soil cement mix or crushed rock. Packing the hole with solid concrete may hold too much moisture and shorten the life of the post. Shimming and any final adjustments can be made after the concrete has setup (24 hrs min., 4-5 days better).
There are many different types of metal brackets and strap anchors. A "Y" anchor that is nailed to both sides of the beam is sometimes more available than the Simpson hardware shown in the diagrams.
Treated posts can be packed with soil cement made from 5 to 10 parts clean gravel and sand type soils (no organic material) to 1 part cement. Mix well and add only enough water to make workable. For longest service, the post holes should drain and not hold water against the posts. You can also extend service by painting the posts with asphalt roofing tar for 8" either side of the final soil line. This is where posts are most likely to experience organic attacks.
Pier & Pad systems have been around for many years and is still popular b/c of its versatility and low cost. Unlike homes built atop solid concrete (slab) foundations, homes constructed on top of pier & pads can be picked up and moved by professional house movers.
Mild Climate Footings
In mild winter climates (12" or less frost depth) and well drained soil, there is little chance of freezing soil lifting the footings and piers. In this case you can dig down into the soil 12" or more and either pour a concrete footing or fill the footing hole with clean crushed rock. The size of this footing hole should be a 16" diameter circle or square for gravel or rocky soils and a 24" circle or square for soils with mostly loam, loose sand or clay. The footing depth should be 1/2 the width or more.
Make sure the bottom of the footing rests on undisturbed soil free of organic material. Don't build on fill or soil that has been dumped on the site (unless it is uncompressible material such as crushed rock). Your footings will spread out the total weight of the building over the bearing soil. Good solid material under these footings is essential. When in doubt, make the footings larger thus reducing the load per square foot (think snowshoes effect).
Cold Climate Footings
In colder climate areas you need the same footing but it will be at the bottom of a deeper hole so that the bottom of the footing sits on soil that is below frost depth. Coming up from the footing will be either a pressure treated wood post or a concrete pier made out of mortared blocks or a poured cardboard tube. Pour a concrete footing first with a cross of 1/2" (#4) rebar to reinforce and tie into the pier. Set these bars on rocks or broken brick so that they sit 3" up from the bottom of the pour. Wire a section of rebar vertical and this will tie into another bar running up the core of the concrete pier. Overlap sections of bar 12" to 15". The center of your tube or block pier will be poured with concrete and tie the footing and beam straps or brackets together with a reinforced concrete pier. The tube pier is shown at left.
Block Piers
You can also build your piers from 8 x 8 or 12 x 12 concrete blocks. For short piers use the smaller blocks, for taller ones go larger. Tube piers come in various diameters as well and larger ones should be used on the downhill side of a sloping site where they will stand higher. A safe rule of thumb is that a pier or post should not exceed 15 (for concrete) or 20 (wood) times its width in unsupported height.
When using concrete blocks for your piers, the footings must all be level in order for the piers to be level under the beams. If you have to change footing levels they must be in 8" increments. With poured tubes you can cut them off level prior to filling so the footings can be at different levels. Check for level using an inexpensive water level made from clear tubing. Run this from footing to footing or from tube to tube using the shortest pier as the master.
Setting the Tops of the Piers
Set the height of the piers so that there is a minimum of 12" under the beams and 16" under the floor joists of the built platform. This will allow enough separation between soil and wood and allow for plumbing, wiring and insulation to be worked on from below.
Wood Post Foundation Piers
When using wood posts get foundation grade 6x6 treated poles or posts. You can cut these level later so footings do not have to be at the same level. When using a gravel footing, nail a square of pressure treated 2x10 to the bottom to act as a foot. Use only hot dipped galvanized, "Z-max" or stainless steel nails and bolts with PT material. Don't rely only on the bolts to hold the beams. Notch the posts and then bolt or set the beams directly on top of the wood posts and connect them with appropriate metal brackets.
Getting the beams level and in the right place is more easily done by clamping or lightly nailing the metal connector or posts to the beam, then leveling the beam in its proper location with temporary bracing. Leveling is best down by using a builder's dumpy level or transit and a skilled professional ..OR.. using a waterhose filled with water.
Once the beams are level in accordance to all the others, pack the hole with a well drained soil cement mix or crushed rock. Packing the hole with solid concrete may hold too much moisture and shorten the life of the post. Shimming and any final adjustments can be made after the concrete has setup (24 hrs min., 4-5 days better).
There are many different types of metal brackets and strap anchors. A "Y" anchor that is nailed to both sides of the beam is sometimes more available than the Simpson hardware shown in the diagrams.
Treated posts can be packed with soil cement made from 5 to 10 parts clean gravel and sand type soils (no organic material) to 1 part cement. Mix well and add only enough water to make workable. For longest service, the post holes should drain and not hold water against the posts. You can also extend service by painting the posts with asphalt roofing tar for 8" either side of the final soil line. This is where posts are most likely to experience organic attacks.