Threading Pass Calculator

LATHE
First pass depth
Final pass depth
Pass Depth this pass (in) Cumulative depth (in)
Pass depths follow a square-root progression, so the cutting area stays roughly even from pass to pass even though radial depth gets smaller, since thread width grows with depth. This complements the Threading Compound Infeed Calculator, which converts a single radial depth into a compound-slide dial reading — use that one for each pass depth shown here if you’re feeding in along the compound rather than straight in.

Why Thread Passes Get Shallower

A single-point threading tool cutting at constant radial depth per pass would face a rapidly growing chip cross-section as the thread gets deeper, since the V-groove widens with depth even while the radial increment stays the same. Spacing pass depths on a square-root curve instead keeps the area of metal removed roughly similar pass to pass, which keeps tool pressure and chip load more consistent from the first roughing pass to the last finishing pass.

Choosing a Pass Count

More passes means lighter cuts and better surface finish and tool life, but also more cycle time, so harder materials and finer pitches generally want more passes while soft materials and coarse threads can often get away with fewer. Six to ten passes is a common range for a typical single-point lathe threading operation.

Using This With Compound Infeed

This calculator gives you the radial depth to remove on each pass, if your lathe's threading setup feeds in along an angled compound slide rather than straight in, run each pass's depth through the Threading Compound Infeed Calculator to convert it into the actual compound dial reading for that pass.

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The calculators and tools on Formula Factory are provided for general guidance and informational purposes only. Results are estimates based on standard formulas and the values you enter — they do not constitute professional engineering, electrical, or architectural advice. Always verify calculations with a qualified professional before making decisions for any safety-critical, code-compliance, or commercial application. Formula Factory makes no representations or warranties as to the accuracy or completeness of any result, and accepts no liability for errors, omissions, or any outcomes arising from reliance on this information.