Granite Quantity Calculator

Project Inputs

Measurement system

Switching systems keeps values as entered.

Length unit

Thickness unit

Typical countertop: 20-30 mm or 3/4-1¼ in.

Shape

L-shape uses a corner overlap estimate.

Main length (m)

Main width (m)

Return length (m)

Return width (m)

Thickness (mm)

Waste allowance (%)

Common range: 8-15% for cuts and breakage.

Granite density (kg/m³)

Typical granite: 2600-2800 kg/m³.

Slab Options

Use supplier slab size to estimate slab quantity.

Slab length (m)

Slab width (m)

Cost per area (optional)

Rate is per m².

Currency code

Tile Options (optional)

Leave tile size empty to skip tile count.

Tile length (mm)

Tile width (mm)

Joint width (mm)

Reset

Example Data Table

Use case	Area	Thickness	Waste	Slab size	Estimated slabs
Kitchen countertop	3.20 m²	30 mm	10%	3.0 × 1.5 m	1
Lobby floor tiles	18.00 m²	20 mm	12%	3.0 × 1.8 m	4
Stair treads batch	6.50 m²	30 mm	15%	2.9 × 1.6 m	2

Examples are illustrative. Real slab yield depends on cut layout, veining, and defects.

Formula Used

Area (rectangle): A = L × W
Area (L-shape): A ≈ (L×W) + (L2×W2) − overlap
Waste factor: A_w = A × (1 + waste% / 100)
Volume: V = A_w × thickness
Weight: Weight = V × density
Slabs: Slabs = ceil(A_w / slabArea)
Tiles: Tiles = ceil(A_w / tileCoverage), with joint spacing included.

For L-shapes, confirm overlap using shop drawings for higher accuracy.

How to Use This Calculator

Select a measurement system and your preferred units.
Choose the shape and enter your measured dimensions.
Set thickness, waste allowance, and granite density.
Enter slab size to estimate required slab count.
Optional: add tile size, joint width, and a rate.
Press Calculate to see results above the form.
Use Download CSV or Download PDF for sharing.

Project Notes

Material Takeoff Consistency

This calculator converts site measurements into a consistent area basis, then applies waste to reflect real cutting losses. For rectangular runs, it uses L×W. For L‑shapes, it estimates a corner overlap to avoid double counting. Using a single area number helps teams compare countertop, flooring, or cladding scopes across drawings and revisions without recalculating by hand. Capture dimensions from finished face to face.

Waste Allowance and Yield

Waste is not a guess; it is a risk allowance that should reflect cut complexity, edge profiles, and transport damage. Straight runs often perform well at 8–10%, while layouts with sinks, cooktops, or tight veining matches may need 12–18%. The calculator shows both base area and waste‑included area, helping procurement justify contingency and reduce last‑minute slab shortages. Document chosen waste rate in estimates always.

Weight, Handling, and Logistics

Weight is derived from volume and density, which matters for lifting plans and structural checks. Granite commonly ranges from 2600–2800 kg/m³, so thicker sections increase mass quickly. The tool reports weight in kilograms and pounds, supporting crane selection, pallet limits, and delivery scheduling. Use the weight output to coordinate with installers on carry paths and site access. Confirm lifting gear ratings with safety officer.

Slab and Tile Ordering Approach

Slab quantity is calculated by dividing waste‑included area by supplier slab area and rounding up. This supports early ordering, but final yield depends on nesting, defects, and grain direction. For tiled applications, optional tile inputs add joint spacing to estimate coverage per unit, improving count accuracy for grout lines, wastage during cutting, and spare stock planning. Add spares to match maintenance expectations later.

Cost Tracking and Reporting

Cost control improves when assumptions are transparent. Enter a unit rate per square meter or square foot to generate a quick material estimate that can be compared against vendor quotes. Export buttons produce CSV for spreadsheets and a PDF for submittals or site packs. Keeping outputs consistent helps teams track changes, document approvals, and reduce bid risk across project phases. Update rates when market pricing shifts fast.

FAQs

1) Which density should I use for granite?

Use your supplier’s data when available. If you need a baseline, 2700 kg/m³ fits many granites. Higher density increases weight and handling demands, so confirm for thick sections or critical lifts.

2) How do I choose a waste percentage?

Start with 8–10% for simple rectangles. Increase to 12–18% for cutouts, tight seams, edge detailing, or veining alignment. Review shop drawings and past project yields to set a defensible value.

3) Why does slab count differ from my fabricator’s takeoff?

Fabricators optimize nesting, consider defects, and follow grain direction. This calculator uses area and rounds up by slab area, so it is best for early planning. Final orders should follow approved templates and layouts.

4) Can I use this for wall cladding and flooring?

Yes. Enter the measured surface dimensions, thickness, and waste. For tiled work, add tile size and joint width to estimate tile quantities. Validate edge trims, reveals, and openings separately if they are significant.

5) Does the tool include adhesive, grout, or reinforcement?

No. Outputs focus on granite area, volume, weight, and unit counts. Use separate calculators or manufacturer coverage rates for mortar, epoxy, grout, mesh backing, and mechanical fixings based on your system design.

6) What should I export for approvals and handover?

Export the PDF for a clean summary and attach the CSV to your estimate file. Include the date, slab size assumption, thickness, and waste rate so reviewers can reproduce the numbers during change control.