Concrete Block Calculator
Calculate concrete block accurately for your build. Get material quantities, waste allowances, and project cost breakdowns.
Formula
Total Blocks = ceil(Wall Length / Nominal Block Length) x ceil(Wall Height / Nominal Block Height) x (1 + Waste%)
The number of blocks per row is the wall length divided by the nominal block length (actual block size plus mortar joint), rounded up. Multiply by the number of rows (wall height divided by nominal block height, rounded up). Add a waste percentage for cutting and breakage.
Worked Examples
Example 1: Garage Wall Construction
Problem: Calculate blocks needed for a garage wall 20 feet long and 8 feet high using standard 16 x 8 inch blocks with 3/8-inch mortar joints and 5% waste.
Solution: Wall length in inches = 20 x 12 = 240 in\nWall height in inches = 8 x 12 = 96 in\nNominal block length = 16 + 0.375 = 16.375 in\nNominal block height = 8 + 0.375 = 8.375 in\nBlocks per row = ceil(240 / 16.375) = 15\nNumber of rows = ceil(96 / 8.375) = 12\nNet blocks = 15 x 12 = 180\nWaste (5%) = 9 blocks\nTotal = 180 + 9 = 189 blocks\nMortar = ceil(189 x 0.01 x 100) / 100 = 2 bags (80 lb)
Result: 189 blocks needed | 2 bags mortar | Wall area: 160 sq ft | Cost: ~$370
Example 2: Retaining Wall
Problem: A retaining wall is 40 feet long and 4 feet tall using 16 x 8 blocks with 3/8-inch joints and 7% waste for cuts.
Solution: Wall length = 40 x 12 = 480 in\nWall height = 4 x 12 = 48 in\nBlocks per row = ceil(480 / 16.375) = 30\nNumber of rows = ceil(48 / 8.375) = 6\nNet blocks = 30 x 6 = 180\nWaste (7%) = 13 blocks\nTotal = 180 + 13 = 193 blocks\nWall area = 40 x 4 = 160 sq ft\nMortar = 2 bags (80 lb)\nRebar: 11 verticals at 4 ft = 44 ft + 1 horizontal at 40 ft = 84 ft total
Result: 193 blocks needed | 2 bags mortar | 84 ft rebar | Cost: ~$390
Frequently Asked Questions
What is the standard size of a concrete block (CMU)?
The standard concrete masonry unit (CMU) in the United States has nominal dimensions of 8 inches wide by 8 inches tall by 16 inches long. However, the actual dimensions are slightly smaller at 7.625 x 7.625 x 15.625 inches to accommodate a standard 3/8-inch mortar joint. When the mortar joint is added, the nominal dimension of 8 x 8 x 16 inches is achieved, which makes layout calculations simpler. Half blocks (8 x 8 x 8 inches nominal) are used at corners and openings. Other common sizes include 4-inch, 6-inch, 10-inch, and 12-inch widths, with the width referring to the wall thickness. The weight of a standard hollow 8-inch block ranges from 28 to 36 pounds depending on the aggregate used.
How many concrete blocks do I need per square foot of wall?
For standard 8 x 8 x 16 inch blocks with 3/8-inch mortar joints, you need approximately 1.125 blocks per square foot of wall area. This is calculated by dividing the wall area by the face area of one block with mortar. Each block covers approximately 0.889 square feet (16.375 inches x 8.375 inches / 144). For a 100 square foot wall, you would need about 113 blocks before waste. Always add 5-10% for waste due to cutting, breakage, and damaged blocks during delivery. For walls with openings like windows and doors, subtract the opening area from the total wall area before calculating block count. However, blocks around openings often require cutting, which increases waste, so maintaining the 5-10% waste factor is still recommended.
How much mortar do I need for concrete blocks?
Mortar consumption depends on block size, joint thickness, and worker technique. For standard 8 x 8 x 16 blocks with 3/8-inch joints, each block requires approximately 0.01 cubic feet of mortar for bed and head joints. One 80-pound bag of pre-mixed mortar (Type S or N) yields approximately 0.5 cubic feet when mixed, which is enough for about 12-15 standard blocks. For a wall of 100 blocks, plan on 7-8 bags of mortar. Type S mortar is recommended for below-grade and structural applications with a compressive strength of 1,800 PSI. Type N mortar is suitable for above-grade non-load-bearing walls with 750 PSI strength. Always have extra mortar on hand since it becomes unusable within 90 minutes of mixing in warm weather.
How do I account for openings in a block wall?
To calculate blocks for walls with doors, windows, and other openings, first calculate the total gross wall area as if there were no openings. Then subtract the area of each opening. A standard door opening is 3 feet x 6.67 feet (20 sq ft) and a standard window is 3 feet x 4 feet (12 sq ft). Multiply the net wall area by the blocks per square foot to get the net block count. However, do not reduce the waste factor because openings create additional cuts and require special header blocks, lintel blocks, and jamb blocks around them. In fact, you should increase the waste factor to 7-10% for walls with multiple openings. Steel lintels or bond beams are required above every opening to support the blocks above, and these must be properly sized based on the span width and wall height above the opening.
How do I properly lay concrete blocks for a strong wall?
Proper block laying starts with a level, plumb foundation or footing that extends below the frost line. First, lay a dry course (without mortar) to check spacing and minimize cuts. Start each course from the corners, building them up 3-4 courses as leads, then filling in between using a mason line for alignment. Apply mortar to the bed joint (horizontal) in a full bedding pattern for structural walls. Butter the head joints (vertical) on the block ends before placing. Each course should be offset by half a block length (running bond pattern) for strength. Check level, plumb, and alignment every few courses. Joints should be tooled (finished) when the mortar is thumbprint-firm to create a concave profile that sheds water. Control joints should be placed every 20-25 feet to allow for thermal expansion and prevent cracking.
What reinforcement is required for concrete block walls?
Reinforcement requirements vary by building code, seismic zone, and wall function. In Seismic Design Category D or higher, all masonry walls require both vertical and horizontal reinforcement. Vertical rebar (typically No. 4 or No. 5) is placed in hollow cores at 48 inches on center maximum, with cores filled with grout. Horizontal reinforcement uses ladder-type joint reinforcement in every other course or bond beam blocks with rebar at 48-inch vertical spacing. At corners, T-intersections, and jambs of openings, additional vertical bars are required. Bond beams (U-shaped blocks filled with grout and rebar) are placed at the top of the wall, above and below openings, and at floor or roof connections. In lower seismic zones, reinforcement requirements may be reduced but should never be eliminated entirely for structural walls.