Precision Springs, Stampings & Micro-Formed Components worked example
Material Strip Utilization at 98% target strip yield: a worked example
What does the result look like when target strip yield reaches 98%? The full calculation is worked below with real intermediate numbers. Use it to evaluate nesting and layout efficiency in Precision Springs, Stampings & Micro-Formed Components and the cost of material drop.
The inputs for this scenario
- Material area in finished stampings: 82 in² (unchanged)
- Total strip area fed into the press: 100 in² (unchanged)
- Target strip yield: 98 % (raised for this scenario; the documented default is 85)
Working through the calculation
- Applying the documented formula (Material yield = material in finished parts ÷ total material consumed) to the inputs above produces each figure below.
- At this operating point the engine returns 82 % for strip utilization, the number this scenario is built around.
- At this operating point the engine returns 16 points for gap to target.
- At this operating point the engine returns 82 value for material in parts.
- At this operating point the engine returns 100 value for total material consumed.
How this compares with the baseline
- Against the tool's baseline example, where target strip yield sits at 85% and the headline result is 82 %, this scenario lands almost exactly on the baseline at 82 %.
- A figure at this level is achievable when target strip yield is genuinely sustained, not just peaked for a shift. It measures area utilization only; it ignores the value difference between reclaimable edge scrap and unrecoverable skeleton, and does not account for carrier-strip needed for feed.
Results at a glance
- Strip utilization: 82 % (headline result)
- Gap to target: 16 points
- Material in parts: 82 value
- Total material consumed: 100 value
Run it with your numbers
- Every input above is editable in the live Material Strip Utilization calculator, which recalculates instantly and can be shared with the inputs intact.
Last reviewed 2026-05-12.