Calculate concrete volume for continuous and round pier footings. Enter dimensions to get cubic yards needed for your foundation footing project.
Foundation footings are the critical base that transfers your structure's weight to the ground. Whether you're pouring continuous strip footings for a foundation wall or round pier footings for a deck or post-frame building, calculating the correct concrete volume prevents costly over-orders and dangerous short pours.
This calculator handles both rectangular continuous footings and round pier footings. For continuous footings, enter the total linear length, width, and depth. For round piers, enter the diameter, depth, and number of piers. The calculator converts all measurements to cubic yards and shows bag counts for smaller projects.
Accurate footing calculations are especially important because footings are below grade and typically inspected before the pour. Getting the volume right the first time avoids the expense and delay of scheduling a second delivery while the inspector waits.
Precise calculations are essential for meeting regulatory requirements, passing inspections, and ensuring the long-term structural integrity and safety of the completed project.
Footings are the most structurally critical concrete placement in any building project. Under-ordering means stopping mid-pour, which creates a cold joint that compromises structural integrity. Over-ordering wastes material you can't easily reuse. This calculator ensures your order matches your plans exactly, accounting for both continuous and pier footing geometries. Consistent use of this tool across projects builds a library of reference data that improves estimating accuracy over time and reduces reliance on individual experience alone.
Continuous: V = Length (ft) × Width (in)/12 × Depth (in)/12 Round Pier: V = π × (Diameter/2/12)² × Depth/12 × Count Cubic yards = V (ft³) ÷ 27
Result: 7.78 cubic yards
A continuous footing 120 ft long, 20 inches wide, and 12 inches deep: 120 × (20/12) × (12/12) = 200 ft³ = 7.41 yd³. With 5% waste, order 7.78 cubic yards of concrete.
Continuous strip footings run along the perimeter of a building and under load-bearing walls. They spread the building's weight over a larger soil area. Round pier footings support individual posts or columns and are common in deck and pole barn construction. T-shaped footings combine a wide base with a narrow stem wall for cold climates.
For continuous footings, multiply total length by width by depth, all in feet. Remember to convert inches to feet by dividing by 12. For round piers, use the cylinder formula: πr²h. Multiply by the number of piers and divide by 27 to get cubic yards.
The required footing size depends on the structural load and soil bearing capacity. Sandy soil typically supports 2,000 PSF, clay 1,500 PSF, and rock 4,000+ PSF. A structural engineer sizes footings by dividing the load per linear foot by the soil's bearing capacity.
Don't pour footings on frozen ground, uncompacted fill, or standing water. Don't skip the rebar — unreinforced footings crack under differential settlement. And don't forget to account for step-downs on sloped sites, which increase total concrete volume.
Most residential footings are 16–24 inches wide and 8–12 inches deep, depending on the wall load and soil bearing capacity. Two-story homes and heavy masonry walls may require wider footings. Always follow your structural engineer's specifications.
Footings must extend below the frost line in your area to prevent heaving. This ranges from 12 inches in the South to 48+ inches in northern climates. Your local building code specifies the minimum footing depth.
Most residential footings use 2,500–3,000 PSI concrete. Commercial footings and heavy-load applications may require 3,500–4,000 PSI. Air-entrained concrete is recommended in freeze-thaw climates.
Yes, most building codes require at least two continuous #4 rebar running the length of the footing, plus vertical dowels every 4 feet to tie into the foundation wall. Stepped footings need additional diagonal bars at each step.
Concrete should not be placed when temperatures are below 40°F unless cold-weather precautions are taken. Use heated water, accelerators, and insulated blankets to maintain curing temperature above 50°F for at least 48 hours.
A spread (continuous) footing distributes load along its length under a foundation wall. A pier footing is an individual pad or column that supports a point load, such as a deck post or column. Pier footings are round or square, while spread footings are rectangular.
Divide the footing into sections at each step change. Calculate the volume of each rectangular section separately, then add them together. Remember to include the overlapping rebar at each step transition.
Pouring directly in a cleanly dug trench is common for residential footings in firm soil. Forms are needed when the trench walls are unstable, when a precise dimension is required, or when the footing extends above grade.