Another theory which is much the same in substance is then given, and after some general discussion of the theory of the action of the forces under the several systems, the paper continues: 

The new form of hole is, therefore, almost identical in principle with the old Portland canister, except that it has the greater advantage of the V-shaped groove in the rock, which serves as a starting point for the break.  It is also more economical than the Portland canister, in that it requires less drilling and the waste of stone is less.  It is, therefore, not only more economical than any other system of blasting, but it is more certain, and in this respect it is vastly superior to any other blasting system, because stone is valuable, and anything which adds to the certainty of the break also adds to the profit of the quarryman.

It is doubtless true that, notwithstanding the greater area of pressure in the new form of hole, the break would not invariably follow the prescribed line but for the V-shaped groove which virtually starts it.  A bolt, when strained, will break in the thread whether this be the smallest section or not, because the thread is the starting point for the break.  A rod of glass is broken with a slight jar provided a groove has been filed in its surface.  Numerous other instances might be cited to prove the value of the groove.  Elasticity in rock is a pronounced feature, which varies to a greater or less extent; but it is always more or less present.  A sandstone has recently been found which possesses the property of elasticity to such an extent that it may be bent like a thin piece of steel.  When a blast is made in the new form of hole the stone is under high tension, and being elastic it will naturally pull apart on such lines of weakness as grooves, especially when they are made, as is usually the case in this system, in a direction at right angles with the lines of least resistance.

Horizontal holes are frequently put in and artificial beds made by “lofting.”  In such cases where the rock has a “rift” parallel with the bed, one hole about half way through is sufficient for a block about 15 ft. square, but in “liver” rock the holes must be drilled nearly through the block and the size of the block first reduced.

A more difficult application of the system, and one requiring greater care in its successful use, is where the block of stone is so situated that both ends are not free, one of them being solidly fixed in the quarry wall.  A simple illustration of a case of this kind is a stone step on a stairway which leads up and along a wall, Fig. 11.  Each step has one end fixed to the wall and the other free.  Each step is also free on top, on the bottom and on the face, but fixed at the back.  We now put one of the new form of holes in the corner at the junction of the step and the wall.  The shape of the hole is as shown in Fig. 12.

[Illustration:  FIG. 11.]