Log Volume Calculator

Log Volume Calculator | Estimate Cubic Volume, Board Feet & Log Value
Log Volume Calculator • Cubic Feet, Cubic Meters, Board Feet & Value

Log Volume Calculator

Estimate log volume, cubic feet, cubic meters, approximate board feet, Doyle scale, Scribner-style scale, log weight, waste allowance, and log value for forestry, sawmill planning, timber buying, firewood estimation, and woodlot management.

Calculate Log Volume

Default unit: feet
Enter a valid log length greater than 0.
Diameter inside bark, in inches
Enter a valid small-end diameter greater than 0.
Use same value if taper is unknown
Enter a valid large-end diameter greater than 0.
Total logs with similar dimensions
Enter a valid quantity of at least 1.
Advanced Options
Optional local log or lumber value

Your Log Volume Estimate

Net Log Volume0 ft³
Board Feet0 BF
Cubic Meters0 m³
Estimated Value$0

Formula used:

Practical recommendation:

Quick Formula Box

Smalian log volume = ((small-end area + large-end area) ÷ 2) × length

Cylinder volume = π × (average diameter ÷ 2)² × length

Doyle board feet = ((small-end diameter − 4)² × length) ÷ 16

Cubic feet to cubic meters = cubic feet × 0.0283168

Approximate board feet from cubic feet = cubic feet × 12

Net volume = gross volume × (1 − defect allowance)

The calculator uses geometric volume for Smalian and cylinder methods. Doyle and Scribner-style estimates approximate sawlog yield and can differ from true cubic volume because they account for sawing assumptions, slab loss, and log diameter.

Log Volume Reference Table

MethodMain FormulaBest ForStrengthLimitation
Smalian formulaAverage of end areas × lengthTapered logs with both end diametersBetter than a simple cylinder when taper is knownCan overestimate if logs have strong irregular taper.
Cylinder formulaπ × radius² × lengthQuick gross log volumeFast and easy when only one diameter or average diameter is usedDoes not handle taper accurately.
Doyle log rule((D − 4)² × L) ÷ 16Traditional sawlog board-foot estimatesCommon in some hardwood marketsUndervalues small logs and is not true volume.
Scribner-style estimateDiameter-based board-foot approximationRough sawlog comparisonsOften closer for medium logs than DoyleStill a log rule, not geometric volume.
Cubic feetSolid volume measureWeight, transport, storage, timber inventoryWorks across species and marketsDoes not equal lumber recovery.
Cubic metersCubic feet × 0.0283168Metric forestry and timber tradeUseful for international pricingRequires careful unit conversion.
Board feet1 in × 12 in × 12 in volumeLumber pricing and sawmill yieldFamiliar for hardwood lumberLog scale board feet vary by rule.

How to Use the Log Volume Calculator

Enter the log length. For sawlogs, measure the merchantable length, not branches, rot, or unusable sections.
Enter the small-end diameter and large-end diameter. If taper is unknown, use the same diameter in both fields.
Enter the number of logs with similar size. For mixed logs, calculate each size group separately and add the results.
Choose a volume method. Smalian is a practical default when both end diameters are known.
Open Advanced Options only if you need to change units, defect allowance, price mode, price, or density.
Click Calculate to see cubic feet, cubic meters, board feet, log weight, estimated value, formula, and recommendation.

Log Volume Calculator Guide

A log volume calculator helps estimate how much wood is inside one log or a group of logs. Log volume matters for forestry, sawmill planning, timber sales, firewood production, transport, storage, woodlot management, and comparing bids. Depending on the market, logs may be measured by cubic feet, cubic meters, board feet, cords, tons, or a local log scaling rule.

This calculator is designed for fast, practical estimates. It can calculate gross geometric volume using Smalian or cylinder formulas, estimate board feet, apply a defect or waste allowance, estimate log weight from density, and calculate a rough value from your selected price mode. It is useful for landowners, sawmill operators, log buyers, foresters, woodworkers, firewood sellers, and contractors who need a quick estimate before making a decision.

What This Log Volume Calculator Does

The calculator estimates gross log volume, net log volume after defect allowance, cubic feet, cubic meters, approximate board feet, Doyle board feet, Scribner-style board feet, average diameter, taper, weight, and estimated value. The default workflow uses only four main inputs: log length, small-end diameter, large-end diameter, and number of logs.

A simple method selector lets you choose Smalian, Cylinder, or Doyle. Smalian is selected by default because it uses both end diameters and gives a practical geometric volume estimate for tapered logs. Cylinder is faster when you only want a simple solid-volume estimate. Doyle is useful when you need a traditional board-foot log rule estimate rather than true cubic volume.

Why Log Volume Matters

Log volume directly affects money, transport, labor, and yield. A log buyer may price sawlogs by board feet, while a forestry contractor may talk in cubic meters or tons. A sawmill may care about recovery after slab loss, defects, taper, and saw kerf. A landowner may want a fair estimate before selling timber. A woodworker may want to know whether a log is worth milling.

Accurate measurement also reduces disputes. Two logs with the same length can have very different volume if their diameters differ. Taper changes volume, and defects reduce usable yield. A calculator gives a transparent way to show assumptions and compare one log or lot against another.

Key takeaway: log volume depends on length, diameter, taper, quantity, defect allowance, and measurement method. Geometric volume and sawmill board-foot yield are related but not the same.

Log Volume Formulas Explained

The Smalian formula estimates volume by averaging the areas at both ends of the log:

Volume = ((small-end area + large-end area) ÷ 2) × length

Each end area is calculated from the diameter. This method is practical when you know both small-end and large-end diameters. It accounts for taper better than a basic cylinder formula.

The cylinder formula uses one average diameter:

Volume = π × radius² × length

This is useful for quick estimates, especially when taper is low or when only an average diameter is available. It is simple but can be less accurate for strongly tapered logs.

The Doyle rule estimates board feet from small-end diameter and log length:

Doyle board feet = ((diameter − 4)² × length) ÷ 16

Doyle is a log rule, not a solid-volume formula. It tries to estimate recoverable lumber, and it tends to undercount small-diameter logs. Local markets may use Doyle, Scribner, International 1/4-inch, cubic scale, weight scale, or another rule, so always confirm the buying standard.

Cubic Volume vs Board Feet

Cubic feet and cubic meters measure solid wood volume. Board feet measure lumber volume. One cubic foot contains 12 board feet as a pure volume conversion, but a round log will not produce all of its cylinder volume as boards. Slabs, bark, taper, saw kerf, trimming, defects, and target board sizes all reduce recovery.

This calculator shows both geometric volume and board-foot estimates so you can compare. If you are buying or selling sawlogs, use the method accepted in your local timber market. If you are estimating hauling, weight, storage, or biomass, cubic volume and density may be more useful.

Did you know? A log can have high cubic volume but low saleable lumber value if it has rot, sweep, shake, metal, knots, excessive taper, or poor grade.

Defect Allowance and Net Volume

Logs are rarely perfect. Defects may include rot, cracks, checks, knots, sweep, crook, shake, insect damage, embedded metal, bark inclusions, and stain. A defect or waste allowance reduces gross volume to a more realistic net estimate. A clean sawlog may only need a small allowance, while rough logs or logs for milling may need a higher allowance.

The best allowance depends on purpose. For transport and weight, gross volume may be useful. For sawmill yield, a higher defect and recovery adjustment may be needed. For firewood, some defects may still be usable, while rot and dirt can reduce value.

Practical Applications

Forestry and Sawmill Uses

Estimate volume for sawlogs before hauling to a mill.
Compare Doyle-style board-foot value against cubic volume.
Estimate log weight for loading, trailers, and handling.
Group logs by diameter class and calculate lot totals.

Landowner and Woodworker Uses

Estimate the value of logs before selling timber.
Decide whether a log is worth milling into lumber.
Compare species, sizes, and price modes quickly.
Plan rough lumber yield, waste, and storage space.

Common Mistakes to Avoid

A common mistake is measuring diameter over bark when the market requires diameter inside bark. Bark thickness can inflate estimates. Another mistake is using the large-end diameter only, which can overstate volume for tapered logs. Use both end diameters when possible.

Another mistake is confusing geometric volume with board-foot yield. A perfect cylinder volume does not equal finished boards. Saw kerf, slabs, defects, drying loss, edging, trimming, and grading reduce recovery. When selling logs, local log scale rules matter more than a generic calculator.

Users also sometimes ignore species and moisture. A green hardwood log can be much heavier than a dry softwood log of the same size. Weight estimates should be treated as rough planning numbers, not certified scale weights.

Expert Recommendations

Measure logs carefully and consistently. Record length, small-end diameter, large-end diameter, species, visible defects, and whether diameter is inside or outside bark. For mixed logs, calculate separate groups by diameter and length rather than averaging everything together.

For timber sales, confirm the local scaling rule before agreeing on price. For sawmill planning, ask about expected recovery, minimum diameter, trimming allowance, metal detection, and grade deductions. For transport, use conservative weight assumptions and never overload vehicles or equipment.

Conclusion

This log volume calculator gives a fast, practical estimate for cubic feet, cubic meters, board feet, Doyle scale, Scribner-style scale, net volume, weight, and value. It works for sawlogs, timber lots, woodlot planning, forestry estimates, sawmill planning, and rough log buying decisions. For best results, measure both ends, choose the right method, include a realistic defect allowance, and verify local scaling rules before buying, selling, or milling logs.

Log Volume Calculator FAQ

Use length and diameter. For a tapered log, Smalian volume is the average of the small-end and large-end areas multiplied by log length.
Smalian volume equals the average of the two end cross-sectional areas multiplied by the log length. It is useful when both end diameters are known.
Cylinder volume equals pi times radius squared times length. It is a quick estimate when using an average diameter.
The Doyle rule estimates board feet as diameter minus 4 squared, multiplied by length, then divided by 16. It is a sawlog rule, not a cubic-volume formula.
No. Log volume measures wood in the log, while lumber yield depends on saw kerf, slabs, taper, defects, edging, trimming, drying, and grade.
Many log scaling methods use diameter inside bark at the small end. Confirm the standard used by your buyer, mill, or local market.
Multiply cubic feet by 0.0283168 to convert to cubic meters.
As a pure volume conversion, one cubic foot equals 12 board feet. Sawlog board-foot recovery is usually lower than geometric volume conversion.
Use 5% for clean logs, 10% as a general estimate, and 15% to 20% for rough logs, defects, strong taper, or uncertain milling recovery.
Yes. It estimates weight from cubic feet and selected density, but actual weight varies by species, moisture, bark, and defects.
Yes for approximate solid log volume, but stacked firewood is usually measured in cords, which include air space between pieces.
No. It provides estimates only. Official timber sales may require a specific log rule, certified scale, species grading, defect deductions, and local standards.