24 C.F.R. § 3285.312
(a) Materials approved for footings must provide equal load-bearing capacity and resistance to decay, as required by this section. Footings must be placed on undisturbed soil or fill compacted to 90 percent of maximum relative density. A footing must support every pier. Footings are to be either:
(1) Concrete.
(2) Pressure-treated wood.
(3) ABS footing pads.
(b) Placement in freezing climates. Footings placed in freezing climates must be designed using methods and practices that prevent the effects of frost heave by one of the following methods:
(2) Monolithic slab systems. A monolithic slab is permitted above the frost line when all relevant site-specific conditions, including soil characteristics, site preparation, ventilation, and insulative properties of the under floor enclosure, are considered and anchorage requirements are accommodated as set out in § 3285.401. The monolithic slab system must be designed by a registered professional engineer or registered architect:
(3) Insulated foundations. An insulated foundation is permitted above the frost line, when all relevant site-specific conditions, including soil characteristics, site preparation, ventilation, and insulative properties of the under floor enclosure, are considered, and the foundation is designed by a registered professional engineer or registered architect:
(c) Sizing of footings. The sizing and layout of footings depends on the load-bearing capacity of the soil, footings, and the piers. See §§ 3285.202 and 3285.303, and Table to 3285.312.


| Soil capacity(psf) | Minimum footing size(in.) | 8 in. × 16 in. pier | 16 in. × 16 in. pier | ||
|---|---|---|---|---|---|
| Maximum footing capacity(lbs.) | Unreinforced cast-in-place minimum thickness(in.) | Maximum footing capacity(lbs.) | Unreinforced cast-in-place minimum thickness(in.) | ||
| 1,000 | 16 × 16 | 1,600 | 6 | 1,600 | 6 |
| 20 × 20 | 2,600 | 6 | 2,600 | 6 | |
| 24 × 24 | 3,700 | 6 | 3,700 | 6 | |
| 30 × 30 | 5,600 | 8 | 5,800 | 6 | |
| 36 × 36 | 7,900 | 10 | 8,100 | 8 | |
| 42 × 42 | 4 10,700 | 10 | 10,700 | 10 | |
| 48 × 48 | 4 13,100 | 12 | 13,600 | 10 | |
| 1,500 | 16 × 16 | 2,500 | 6 | 2,500 | 6 |
| 20 × 20 | 4,000 | 6 | 4,000 | 6 | |
| 24 × 24 | 5,600 | 8 | 5,700 | 6 | |
| 30 × 30 | 4 8,500 | 10 | 8,900 | 8 | |
| 36 × 36 | 4 12,400 | 10 | 12,600 | 8 | |
| 42 × 42 | 4 16,500 | 12 | 4 16,800 | 10 | |
| 48 × 48 | 4 21,200 | 14 | 4 21,600 | 12 | |
| 2,000 | 16 × 16 | 3,400 | 6 | 3,400 | 6 |
| 20 × 20 | 5,300 | 6 | 5,300 | 6 | |
| 24 × 24 | 7,600 | 8 | 7,700 | 6 | |
| 30 × 30 | 4 11,700 | 10 | 11,900 | 8 | |
| 36 × 36 | 4 16,700 | 15 | 4 16,900 | 10 | |
| 42 × 42 | 4 21,700 | 18 | 4 22,700 | 12 | |
| 2,500 | 16 × 16 | 4,300 | 6 | 4,300 | 6 |
| 20 × 20 | 6,700 | 6 | 6,700 | 6 | |
| 24 × 24 | 4 9,600 | 8 | 9,700 | 6 | |
| 30 × 30 | 4 14,800 | 10 | 15,000 | 8 | |
| 36 × 36 | 4 20,700 | 12 | 4 21,400 | 10 | |
| 3,000 | 16 × 16 | 5,200 | 6 | 5,200 | 6 |
| 20 × 20 | 8,100 | 8 | 8,100 | 6 | |
| 24 × 24 | 4 11,500 | 10 | 11,700 | 6 | |
| 30 × 30 | 4 17,800 | 12 | 4 18,100 | 8 | |
| 36 × 36 | 4 25,400 | 14 | 4 25,900 | 10 | |
| 4,000 | 16 × 16 | 7,000 | 6 | 7,000 | 6 |
| 20 × 20 | 4 10,800 | 8 | 10,900 | 6 | |
| 24 × 24 | 4 15,500 | 10 | 15,600 | 8 | |
| 30 × 30 | 4 23,300 | 12 | 4 24,200 | 10 |
Notes: 1. Refer to Table 1 of § 3285.303 for pier and footing requirements when frame blocking only is used. 2. In addition to blocking required by § 3285.311, see Table 2 to § 3285.303 for maximum perimeter blocking loads. 3. End piers under main I-beams may be set back a maximum of 24 inches, as measured from the outside edge of the floor to the center of the pier. 4. Place piers on both sides of sidewall exterior doors, patio doors, and sliding glass doors; under porch posts, factory-installed fireplaces, and fireplace stoves; under jamb studs at multiple window openings; and at any other sidewall openings 48 inches or greater in width. For roof loads of 40 psf or greater, a professional engineer or registered architect must determine the maximum sidewall opening permitted without perimeter supports. See §§ 3285.307 and 3285.311 for additional requirements and for locating perimeter supports.
Notes: 1. Refer to Table 1 to § 3285.303 for pier and footing requirements when frame blocking only is used. 2. In addition to blocking required by § 3285.311, see Tables 2 and 3 to § 3285.303 for maximum perimeter blocking loads. 3. End piers under main I-beams may be set back a maximum of 24 inches, as measured from the outside edge of the floor to the center of the pier. 4. Place piers on both sides of sidewall exterior doors, patio doors, and sliding glass doors; under porch posts, factory-installed fireplaces, and fireplace stoves; under jamb studs at multiple window openings; and at any other sidewall openings of 48 inches or greater in width. For roof loads of 40 psf or greater, a professional engineer or registered architect must determine the maximum side wall opening permitted without perimeter supports or mating wall opening permitted without pier or other supports. See §§ 3285.307 and 3285.311 for additional information on requirements and for locating perimeter supports. 5. When an end pier under the mate-line also serves as a column pier, it may be set back a maximum of 6 in., as measured from the inside edge of the exterior wall to the center of the pier.
Notes: 1. The footing sizes shown are for square pads and are based on the area (in. 2), shear and bending required for the loads shown. Other configurations, such as rectangular or circular configurations, can be used, provided the area and depth is equal to or greater than the area and depth of the square footing shown in the table, and the distance from the edge of the pier to the edge of the footing is not less than the thickness of the footing. 2. The 6 in. cast-in-place values can be used for 4 in. unreinforced precast concrete footings. 3. The capacity values listed have been reduced by the dead load of the concrete footing. 4. Concrete block piers must not exceed their design capacity of 8,000 lbs. for 8″ × 16″ single stack block and 16,000 lbs. for 16″ × 16″ double stack block. 5. A registered professional engineer or registered architect must prepare the design, if the design loads exceed the capacity for single or double stack concrete block piers shown in footnote 4.