1. Can I assume that you do this in overconsolidated soils only where Pc is not exceeded.
Yes. If you are exceeding Pc you should look at 1-d consolidation parameters.
2. Does the elastic solution generally give comparable settlements to Cr values <Pc (i.e. is it naive to say that on the oedometer curve the Cr portion in the overconsolidated range is representative of elastic conditions?)
Don't know whether naive or not. . . For overconsolidated soils, you often have the difficulty getting representative samples, interpreting the recompression ratio and finding a budget to look at consolidation parameters. If you know it's overconsolidated (i.e., LL>Wn) and you know the local soils correlation to Es is often easier/reliable. That said, I've never taken lab testing and looked for comparability - my judgement says they'd be very similar. I'd like to think that there'd be a relationship between Es and Cr - just don't know what it is.
3. Where one was to derive elastic modulus values from other tests (triaxial, SPT, CPT, etc) where would you use undrained moduli vs drained moduli (for cohesive soils). I note that alot of engineers take the undrained case (short term), would this change for large heavy structures (e.g. tanks), or is this a case better handles with Cr (oedometer) type settlement analysis.
I'm not sure how to respond to this. I appreciate the distinction between drained and undrained testing (i.e., in the triaxial cell) and I appreciate the distinction between drained (long-term) and undrained (short-term) loading. It's just that for overconsolidated soils, there is not alot of change in void ratio for the give loading condition. As such, I'd believe the distinction to be moot. That said, I'm mostly looking at the behavioral response in soils above the water table, where the distinction is truely moot.
4. In deriving elastic moduli for settlement analysis I generally take tangential modulus values (e.g. from stress strain plots). Although I have little idea on some of the empirical correlations to field tests (most simply state and E value) is it fair to assume that they are also tangential values?
Really not sure on this either. I mostly use correlation to SPT N-value to approximate the Es value. I have some references that I use for this - just not right now at home and all. . . . That said, I'd think tangential modulus value would be appropriate. For large areal loads, I've actually used hyperbolic parameters to depict the increase in modulus value with varying confining stress. That said, I had to do some guessing to do this and, well, a few assumptions - ha.
5. Are there any good easy to read papers on the use and abuse of elastic parameters in geotechnical engineering I can brush up on?
Schmertman (sp) has correlations for cone data. Ray Martin has correlation between SPT and Es for residual soils (Piedmont of Virginia). Martin published in ASCE GT journal.
Good questions and all, just not sure that I've fully thought through all the answers. I use a method that I worked up in graduate school and Prof. Duncan seemed to agree with (well at the time and all. . .)
Good luck.
f-d
¡papá gordo ain’t no madre flaca!
