tolerantiesstackinganalyses

Tolerantiesstackinganalyses, commonly called tolerance stack-up analyses, are methods used in mechanical design to evaluate how cumulative deviations from manufacturing tolerances affect the fit and function of an assembly. The aim is to predict whether parts will assemble properly and to quantify the risk of out-of-tolerance conditions.

Approaches include deterministic worst-case analysis, which uses extreme tolerance limits; root-sum-square (RSS) methods that treat deviations

The typical workflow is: define the assembly and critical features, collect tolerance data, build a mathematical

Applications span automotive, aerospace, machinery, and electronics where precise clearances are important. Tolerantiesstackinganalyses support decisions on

Limitations include correlations among tolerances, nonlinear contacts, measurement error, and simplified models that may not capture