This matter of end anchorage is also referred to in the third point, and is fully concurred in by the speaker, who also concurs in the criticism of the arrangement of the reinforcing rods in the counterforts found in many retaining walls.  The statement that “there is absolutely no analogy between this triangle [the counterfort] and a beam” is very strong language, and it seems risky, even for the best engineer, to make such a statement as does the author when he characterizes his own design (Diagram b of Fig. 2) as “the only rational and the only efficient design possible.”  Several assumptions can be made on which to base the arrangement of reinforcement in the counterfort of a retaining wall, each of which can be worked out with equal logic and with results which will prevent failure, as has been amply demonstrated by actual experience.

The speaker heartily concurs in the author’s fourth point, with regard to the impossibility of developing anything like actual shear in the steel reinforcing rods of a concrete beam; but he demurs when the author affirms, as to the possibility of so-called shear bars being stressed in “shear or tension,” that “either would be absurd and impossible without greatly overstressing some other part.”

As to the fifth point, reference can be given to more than one place in concrete literature where explanations of the action of vertical stirrups may be found, all of which must have been overlooked by the author.  However, the speaker heartily concurs with the author’s criticism as to the lack of proper connection which almost invariably exists between vertical “web” members and the top and bottom chords of the imaginary Howe truss, which holds the nearest analogy to the conditions existing in a reinforced concrete beam with vertical “web” reinforcement.

The author’s reasoning as to the sixth point must be considered as almost wholly facetious.  He seems to be unaware of the fact that concrete is relatively very strong in pure shear.  Large numbers of tests seem to demonstrate that, where it is possible to arrange the reinforcing members so as to carry largely all tensile stresses developed through shearing action, at points where such tensile stresses cannot be carried by the concrete, reinforced concrete beams can be designed of ample strength and be quite within the logical processes developed by the author, as the speaker interprets them.

The author’s characterization of the results secured at the University of Illinois Experiment Station, and described in its Bulletin No. 29, is somewhat misleading.  It is true that the wording of the original reference states in two places that “stirrups do not come into action, at least not to any great extent, until a diagonal crack has formed,” but, in connection with this statement, the following quotations must be read: