International Journal of Analytical and Applied Chemistry

Production of gasfilled materials with the high physical mechanical properties plays a large role for effective use of these materials in chemical industry, medicine, machine building and space technology. Existing methods of gasfilled materials production such as the creation and the foaming of the water dispersions of high polymers using the thermal decomposition of organic and inorganic matter, using the radiation destruction of thermoplastic polymer or using the injection of condensed hydrogen with the high pressure are not cost effective and harmless.That is due to the complexity of the technology of conducting the process of gasfilled production and to toxicity of products with the thermal decomposition and the adverse effect of chemical nature of gas developing agent’s damage the properties of the obtained gasfilled material.Besides, such gasfilled material productions permit to produce only specific gasfilled materials that sharply limit the possibility of their application for production materials of wide range.This paper represents the use of microdispersed electrolysis hydrogen bubbles, generated during the process of water electrolysis and the process of vibroturbulization for uniform distribution of these bubbles in the in the entire volume of the melt of the preparatory material, during the advanced gasfilled materials production

 Keywords: Gasfilled materials production; electric field influence on the water solutions; hydrogen electrolysis gas bubbles; vibroturbulization. 

Cite this Article: Michael Shoikhedbrod. Use of the Electrolyzed Hydrogen Bubbles and Process of Vibroturbulization for Advanced Gas-Filled Materials Production. International Journal of Analytical and Applied Chemistry. 2019; 1(2): 1–6p.