A Study of the Effect of Taheri Consciousness Bond Field on the Mechanical Crushing of Silica Particles
Main Article Content
Keywords
Mechanical milling, crushing, silica, Consciousness Bond Field, Taheri Consciousness Fields
Abstract
One of the materials used in various industries is silica. To achieve silica of different dimensions, mainly the method of crushing silica minerals is utilized. Taheri Consciousness Fields (TCFs) were founded and introduced by Mohammad Ali Taheri as new Fields more than four decades ago. These Fields are immaterial and non-energetic, so they have no quantity, but they have direct effects on matter and energy. In other words, although TCFs are not directly measurable, we can indirectly study their effects with various controlled experiments. Therefore, the study of the effect of the Consciousness Bond Field, as one of the Fields, on the process of crushing pure silica is the subject of this study. Initially, relatively pure silica grain (98% purity) was prepared. 10 samples were prepared, 5 of which were put under Consciousness Bond Field. Each sample included 50 grams of silica in a titanium mechanical mill with 4 bullets of size 20, 20 bullets of size 15, 20 bullets of size 10, and 8 bullets of size 12. They were all under the same thermal and physical conditions and were milled alternately XRD (X-ray diffraction), DLS (Dynamic Light-Scattering), Zeta Potential (Electro-kinetic Potential), once with ultrasonic bath, once without ultrasonic, TEM (Transmission Electron–Microscopy), and SEM (Scanning Electron Microscopy) tests were done on the samples. It was found that in the samples under TCF, the strain of the crystalline lattice decreased, the distribution of the particles was more uniform, and the size of the smallest particles decreased. The electric charge of the particles’ surface immediately after milling was dispersed in the samples under the TCF and finally, the resultant charge of the particles’ surface neutralized each other after the use of an ultrasonic bath the TCF effect was reduced, and the surface load was measurable.