An effective method is developed for determining the individual stresses from the trace of the stress tensor (isopachics) in a region adjacent to an arbitrarily-shaped traction-free boundary of a loaded component. The approach is facilitated by the fact that the stresses throughout such a region can be described completely in terms of only one complex potential. Equilibrium and compatibility prevail within the region, and the traction-free boundary conditions are satisfied. The concept is expected to be particularly useful for thermoelastic stress analysis.
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