Concrete Block Calculator
Use this free concrete block calculator to instantly calculate how many CMU (Concrete Masonry Unit) blocks, mortar bags, and core fill concrete you need for any wall, foundation, retaining wall, or building project. Enter your wall length and height, select your block size, mortar joint width, core fill requirement, and doors or windows to deduct β and get an instant block count, mortar estimate, fill concrete volume, and material cost range.
Blocks = Area Γ Blocks per Sq Ft Γ Waste Factor
Mortar Bags = Blocks Γ· 37 Β· Fill Concrete = Blocks Γ 0.25 (all cores)
Standard 8Γ8Γ16 block covers ~1.125 blocks/sq ft Β· 1 bag mortar per 37 blocks Β· Fill cores with rebar for structural walls Β· Always add 10% waste
Estimates based on 2026 US average pricing. Always confirm current pricing with your local supplier before ordering.
How Does the Concrete Block Calculator Work?
This concrete block calculator estimates the number of CMU (Concrete Masonry Unit) blocks, mortar bags, and fill concrete needed for any wall, foundation, retaining wall, or building project. It accounts for block size, mortar joint width, core fill requirements, openings, and waste factor.
How to Use:
- Enter your wall length and height in feet.
- Select your block size β standard 8Γ8Γ16 is the most common CMU block.
- Select your mortar joint size β β inch is standard for concrete block work.
- Select whether to fill cores β required for structural and retaining walls.
- Enter any doors or windows to deduct.
- Select your waste factor β 10% is standard for most projects.
The terms "concrete block" and "cinder block" are often used interchangeably, but they are different. True cinder blocks use coal cinders as aggregate and are no longer commonly produced. Modern CMU (Concrete Masonry Units) use Portland cement, sand, and aggregate β they are stronger, more consistent, and code-compliant. When you buy "cinder blocks" at a home improvement store today, they are actually CMU blocks.
Concrete Block Types Guide
Selecting the correct block type for your application affects structural performance, cost, wall thickness, and appearance. Always verify block dimensions at your local supplier as sizing can vary slightly by manufacturer.
| Block Type | Nominal Size | Blocks/Sq Ft | Best For | Notes |
|---|---|---|---|---|
| Standard CMU | 8Γ8Γ16 in | 1.125 | Walls, foundations, garages | Most common, widely available |
| Half Block | 8Γ8Γ8 in | 2.25 | Corners, closures, courses | Used with standard blocks at ends |
| 4-inch Block | 4Γ8Γ16 in | 1.125 | Non-structural partitions | Lighter, thinner wall |
| 12-inch Block | 12Γ8Γ16 in | 1.125 | Load-bearing, foundations | Heavier duty structural use |
| Split Face | 8Γ8Γ16 in | 1.125 | Decorative exterior walls | Textured face, no additional finish needed |
| Retaining Wall Block | 12Γ6Γ18 in | 0.89 | Retaining walls, landscaping | Interlocking, no mortar needed |
| Bond Beam Block | 8Γ8Γ16 in | 1.125 | Horizontal rebar courses | Open top for rebar & grout |
| Lintel Block | 8Γ8Γ16 in | β | Above door/window openings | U-shaped for concrete & rebar |
Block sizes are listed as nominal dimensions β the actual block is β inch smaller in each direction to account for the mortar joint. A "8Γ8Γ16 inch" block actually measures 7β Γ7β Γ15β inches. When the β inch mortar joint is added, the nominal 8Γ16 inch face dimension is achieved.
Mortar & Core Fill Guide
Mortar Requirements:
| Mortar Type | Compressive Strength | Best For CMU | Mix Ratio |
|---|---|---|---|
| Type S | 1,800 PSI | Below grade, retaining walls, foundations | 1 : 0.5 : 4.5 |
| Type N | 750 PSI | Above grade exterior walls, most common | 1 : 1 : 6 |
| Type M | 2,500 PSI | Foundations, heavy load bearing | 1 : 0.25 : 3 |
Mortar Quantity:
- 1 bag pre-mixed mortar (60 lb) lays approximately 35β40 standard CMU blocks
- For every 100 blocks you need approximately 3 bags of mortar (60 lb bags)
Core Fill Concrete:
- Always fill cores on retaining walls, load-bearing walls, and below-grade walls
- Standard 8Γ8Γ16 block core volume: approximately 0.25 cu ft per block (both cores combined)
- For 100 blocks fully filled: ~25 cu ft = ~0.93 cubic yards of grout or concrete
- Use our Concrete Calculator to estimate fill concrete volume
- Always install vertical rebar in filled cores β #4 or #5 rebar every 32β48 inches for structural walls
- Use our Rebar Calculator to estimate rebar quantity
Any load-bearing CMU wall, retaining wall over 4 feet, or wall supporting a roof or floor must be designed by a licensed structural engineer. Core filling, rebar size and spacing, footing dimensions, and mortar type must meet local building codes. Never guess on structural masonry β always pull a permit and get it inspected.
Concrete Block Coverage Chart
Quick reference for common wall projects using standard 8Γ8Γ16 CMU blocks (1.125 blocks/sq ft) with 10% waste.
| Wall Size | Wall Area | Blocks Needed | Mortar Bags | Fill Concrete (all cores) |
|---|---|---|---|---|
| 10Γ4 ft garden wall | 40 sq ft | 50 blocks | 2 bags | ~0.46 cu yd |
| 20Γ4 ft retaining wall | 80 sq ft | 99 blocks | 3 bags | ~0.92 cu yd |
| 20Γ8 ft garage wall | 160 sq ft | 198 blocks | 6 bags | ~1.83 cu yd |
| 40Γ8 ft building wall | 320 sq ft | 396 blocks | 11 bags | ~3.67 cu yd |
| Foundation 30Γ8 ft | 240 sq ft | 297 blocks | 9 bags | ~2.75 cu yd |
*Fill concrete assumes all cores filled. Partial fill (every other core) reduces concrete by ~50%.
Concrete Block Cost (2026)
| Item | Unit | DIY Cost | Installed Cost |
|---|---|---|---|
| Standard 8Γ8Γ16 CMU | Per block | $1.50 β $3.50 | β |
| Standard CMU | Per sq ft wall | $1.70 β $3.95 | $10 β $20/sq ft |
| Split Face Block | Per block | $2.50 β $5.00 | β |
| Retaining Wall Block | Per block | $3.00 β $8.00 | β |
| Mortar (60 lb bag) | Per bag | $8 β $15 | β |
| CMU Wall Installation Labor | Per sq ft | Materials only | $8 β $16/sq ft |
| 20Γ8 ft Garage Wall (1 wall) | Full project | $330 β $750 | $2,600 β $5,600 |
CMU block walls cost $10β$20/sq ft installed, compared to poured concrete at $15β$30/sq ft and brick at $8β$18/sq ft. CMU is the most practical choice for DIY structural walls β blocks are manageable by one person (35β50 lbs each), require no forms, and progress is visible immediately. Poured concrete requires forming and finishing skills. Brick is slower to lay than CMU.
Example Calculation
You want to build a 20 ft long Γ 6 ft high garden wall using standard 8Γ8Γ16 CMU blocks with β inch joints, 10% waste, no openings, hollow cores (no fill).
20 Γ 6 = 120 sq ft
Step 2 β Blocks per sq ft (standard 8Γ8Γ16 with β " joint):1.125 blocks per sq ft
Step 3 β Base block count:120 Γ 1.125 = 135 blocks
Step 4 β Add 10% waste:135 Γ 1.10 = 149 blocks (order 150)
Step 5 β Mortar bags needed:150 Γ· 37 = ~4 bags of mortar (60 lb bags)
Step 6 β Material cost estimate:150 blocks Γ $2.50 avg = $375 blocks + 4 bags Γ $10 = $40 mortar = ~$415 materials
Number of courses (rows):6 ft = 72 inches Γ· 8 inches per course = 9 courses
Buying & Installation Tips
Before You Start
- Build on a proper footing β never lay CMU blocks directly on soil. Pour a concrete footing at least twice the wall width and 8β12 inches deep below frost line. Use our Concrete Calculator to estimate footing concrete.
- Plan your courses β a standard 8Γ8Γ16 block course is exactly 8 inches high. Divide your wall height in inches by 8 to get the number of courses. 8 ft wall = 12 courses.
- Order half blocks separately β you need half blocks at every corner and at every other course end for a running bond pattern. Calculate approximately 10β15% of your total as half blocks.
- Check local codes β structural CMU walls almost always require a building permit, engineer's drawings, rebar specifications, and inspection. Check before starting.
During Installation
- Start with a dry layout β lay the first course without mortar to confirm your spacing and plan cuts before committing.
- Butter all contact surfaces β apply mortar to both the bed (horizontal) and head (vertical end) joints for full bedding.
- Check level and plumb every course β use a long level on every course. Small errors compound β a wall that's ΒΌ inch out of plumb per course is 3 inches out by course 12.
- Control joints every 20β25 ft β vertical control joints allow for thermal expansion and prevent cracking. Use a sash block and backer rod at control joint locations.
If you are filling cores with concrete, do it in lifts of no more than 4 feet at a time β overfilling causes blow-out of mortar joints before they cure. Wait 24β48 hours between fill lifts on freshly laid courses. Use a vibrator or rod to consolidate the fill concrete around rebar.