Method for evaluating breakage strength of first and second cemented surfaces of well cementation under dynamic load

What is claimed is: 1. A method for evaluating a breakage strength of first and second cemented surfaces of a well cementation under a dynamic load, sequentially comprising the following steps: (1) producing a rock-set cement-casing composite structure sample; connecting a left part and a right part of a middle mold body with screws; fixing a lower cover to form a cuboid curing mold with a plurality of cylindrical inner cavities; placing round steel blocks at a bottom of each of the plurality of cylindrical inner cavities and then pouring a cement slurry; placing a round rock on a surface of the cement slurry, and covering with an upper cover, the upper cover is provided with a groove for discharging a redundant cement slurry; then placing the mold in a water bath kettle and curing to a desired age; demolding, and taking the round steel blocks, set cement and the round rock out together to obtain the rock-set cement-casing composite structure sample; (2) placing the rock-set cement-casing composite structure sample on a Hopkinson rod testing platform for a dynamic load loading testing, to obtain the breakage strength of the first and second cemented surfaces through a data processing analysis according to the following sub-steps: sub-step 1) coating two end surfaces of the rock-set cement-casing composite structure sample with butter, and clamping the rock-set cement-casing composite structure sample horizontally between an incident rod and an output rod of a Hopkinson rod; sub-step 2) hitting the incident rod with a conical punch to generate incident waves, the incident waves pass through the rock-set cement-casing composite structure sample to generate reflected waves and projected waves, recording dynamic strain signals of the incident waves, the reflected waves and the projected waves by a strain gauge, and converting the dynamic strain signals into electrical signals and transmitting the electrical signals to a computer; sub-step 3) recording a process and a corresponding time point from breakage starting to a final complete breakage of the first and second cemented surfaces by taking photos with a high-speed photographic instrument in the loading process; sub-step 4) obtaining a strain rate time travel curve and a stress-strain curve by the computer, and obtaining the breakage strength by analyzing curve peak points, wherein a corresponding point of an ordinate peak on the stress-strain curve is a simultaneous breakage strength of the first and second cemented surfaces under the dynamic load. 2. The method for evaluating the breakage strength of the first and second cemented surfaces of well cementation under the dynamic load according to claim 1 , wherein contact surfaces of the round steel blocks and the cement slurry are sequentially washed with a drilling fluid, a rinsing liquid and an isolation liquid for 3-5 minutes in advance to simulate the actual working conditions of the first cemented surface to which the drilling fluid is attached. 3. The method for evaluating the breakage strength of the first and second cemented surfaces of the well cementation under the dynamic load according to claim 1 , wherein contact surfaces of the round rock and the cement slurry are pressure-filtered with a high temperature and high pressure press filter to form a filter cake to simulate adhesion of the filter cake on the second cemented surface.