For the latter, the impact crusher and vibrating screen form the closed-circuit, which guarantees the product size can meet the requirements. Due to the presence of cracks in the crystal, the connection between crystals becomes weak. Therefore, the crushing capacity depends on the crushing power (energy). The main factors are: material resistance strength, hardness, toughness, shape, size, humidity, density, homogeneity, and external conditions, such as the instantaneous interaction and distribution of materials at the moment 4f crushing.
The crushing process does not happen by itself and it is not reversible. The materials are only destroyed along the vertical at the moment; if you continue to exert pressure on the materials, the specimen will be fractured, that is, crushing. In certain cases, some big concentrating mill adopts small grain dryers four-phase crushing process, which can achieve finer product size and increase the efficiency of each phase. It is only suitable for small mines, the total ratio is 15-25 or so and the capacity is often less than 1000 tons / day. The cohesion, even for the same rock, differentiates greatly. When the deformation reaches a certain value, the material hardening, the stress will increases, and thus the deformation to continue. When the plastic deformation reached its limit, the material damage could arise. Rock crushing is a very complicated process, because in the process of crushing, a number of factors will influence the crushing ratio. Of course, rock and mineral materials, the yield point is obvious.
We can see from the mechanics of materials, materials subject to external force, in the event of damage, first produce elastic deformation, when material was not damaged.
(2) Crushing stage, large pieces crushed. All these factors will make the process of breaking complicated, and so far a unified and complete set of mathematical theory is not achieved to explain the crushing ratio. When the stress reached when the elastic limit, permanent deformation began to emerge, materials into the plastic deformation state.
In mining, there are two-phase and three-phase crushing processes. Two-phase crushing process can be open-circuit and closed-circuit. For example, exert pressure to brittle materials from above until it reaches the limits of the specimens' compression.
In fact, because it is difficult to measure the compressive stress on different parts of the material, it is difficult to calculate the stress distribution. These deficiencies may be macro-or micro-cracks.
(1) Splintering stage, energy absorption and very few large pieces crushed. It depends not only on the nature and structure of crystals in the rock, but also on the deficiencies of the crystals. The external force must overcome the internal cohesion between particles in the rock.) May 29, 2012 - Crushing refers to the process of breaking the rocks into smaller chunks.
It can be detected from observing cross-section that the rock is crushed by pressing fracture (or tension fracture) due vertical forces outside; or slip due to shear stress; or both.
(3) Compaction stage, sheet pieces broken, producing small chucks.html
The stone crushing can be divided into three stages. Clearly, in order to make material crushed and fractured, not only the compressive stress acting on the fracture surface must reach a specific value, but also the distance dragged on the fracture surface matters.