Interesting questions and observations. If no thrust blocks or external anchorages are installed it would appear there will be some movements and perhaps even some (attempted) rebating movements of the fittings and piping relative to the soil mass, particularly in the thrust foci areas in response to thermal variations, Poisson/Bourdon effects of changing pressure conditions etc. If on the other hand effective external anchorages are installed one would think subsequent movements at least in the thrust foci areas would be more controlled (the thinking of this “designer”?); however, it would appear there are then some concerns and/or experience of abrasion and/or other stress concentrations in the block area.
I am not sure that with plastic materials (with very high thermal expansion coefficients, relatively high long-term Poisson’s ratio, relatively low long-term moduli, hardness, scratch and gouge resistance etc.) that such effects in either case would necessarily be inconsequential. I do know that after a discussion of many subjects, including the weakening effects of surface damages (or other notches etc.) in a July 1972 AWWA Journal article, “Designing PVC Pipe for Water-Distribution Systems”, the author Mr. R. T. Hucks JR then stated,
“Until such time that a wider knowledge of actual pipe operating conditions has been accumulated and the effects of surface damage is better understood, the design of PVC water distribution pipe must be conservative, and based upon the controlling stress causing failure, the cyclical (pressure)operating conditions.
Any method of design upon which an engineer can make his PVC pipe material selection must include (1) the effect of static conditions; (2) the effect of field damage (scratches); and (3) the effect of dynamic properties.”
While Mr. Hucks didn’t cover all aspects of piping in his article, he was perhaps trying to cover a lot of ground with these particular statements.
