ANALYSIS OF MECHANISMS AND GRINDING HARDENING QUARTZ OF HIGHLY CONCENTRATED SUSPENSIONS BASED ON NANOTECHNOLOGICAL APPROACHES AND COLLOID-CHEMICAL LAWS
Abstract
On the basis of long-term theoretical and experimental studies of numerous analyzes the possibility of using the existing theoretical approaches to nanotechnology disclosure mechanisms processes of crushing quartz sand and quartz hardening of highly concentrated suspensions (FSI ) and related materials . The analysis found that the existing basis of nanotechnology can not be accepted as an adequate theoretical framework to describe the mechanisms of grinding and hardening of videoconferencing . However, the results of experimental studies successfully explained onbased on the provisions and laws of modern colloid chemistry and physico -chemical mechanics of disperse systems and materials.
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