Instead of iterating over all possible permutations, assume one exists and attempt to construct it. I believe that done in the right way, failure of the algorithm would imply inexistence of the permutation.
Here is the outline of the idea applied to the expressions above:
str1 = "A m * B s / (A m + C m)"
str2 = "C m * B s / (C m + A m)"
We're looking for a permutation of the set (A, C) that would render the expressions identical. Relabel A and C as X1 and X2 according to the order of their first appearance in str2, so:
X1 = C
X2 = A
because C appears before A in str2. Next, create the array Y such that y[i] is the ith symbol A or C in order of first appearance in str1. So:
Y = A
Y = C
Because A appears before C in str1.
Now construct str3 from str2 by replacing A and C with X1 and X2:
str3 = "X1 m * B s / (X1 m + X2 m)"
And then start substituting Xi for Y[i]. First, X1 becomes Y=A:
str3_1 = "A m * Bs / (A m + X2 m)"
At this stage, compare str3_1 and str1 up to the first occurrence of any of the Xi's, in this case X2, so because these two strings are equal:
str3_1[:18] = "A m * B s / (A m + "
str1[:18] = "A m * B s / (A m + "
You have a chance of constructing the permutation. If they were unequal, you'd have proven no suitable permutation exists (because any permutation would have had to make at least that substitution) and could deduce inequivalence. But they are equal, so you proceed to the next step, substituting X2 for Y=C:
str3_2 = "A m * B s / (A m + C m)"
And this is equal to str1, so you have your permutation (A->C, C->A) and have shown the equivalence of the expressions.
This is only a demonstration of the algorithm to a particular case, but it should generalize. Not sure what the lowest order you could get it down to is, but it should be quicker than the n! of generating all permutations on n variables.
If I understand the significance of the units correctly, they limit which variables may be swapped for which others by the permutations. So that A can be substituted with C in the above expressions because both have 'm' units, but not with B which has 's' units. You can handle this in the following way:
construct expressions str1_m and str2_m from str1 and str2 by removing all symbols that don't have m units, and then carry out the above algorithm for str1_m and str2_m. If construction fails, no permutation exists. If construction succeeds, keep that permutation (call it the m-permutation) and construct str1_s and str2_s from str1 and str2 by removing all symbols that don't have s units, then carry out the algorithm again for str1_s and str2_s. If construction fails, they are not equivalent. If it succeeds, the final permutation will be a combination of the m-permutation and the s-permutation (although you probably don't even need to construct it, you just care that it exists).