HYDRO ISOLATION MATERIALS, LUMINOPHORE AND OTHER DEFICIENT PRODUCTS, INNOVATIVE TECHNOLOGY

Guram Khitiri; Ioseb Chikvaidze; Raul Kokilashvili; Tinatin Gabunia; Madona Tsurtsumia

doi:10.31435/rsglobal_ws/30122018/6268

Guram Khitiri PhD, TSU, Petre Melikishvili Institute of Physical and Organic Chemistry, Laboratory of Petroleum Chemistry
Ioseb Chikvaidze PhD, TSU, Petre Melikishvili Institute of Physical and Organic Chemistry, Laboratory of Petroleum Chemistry
Raul Kokilashvili PhD, TSU, Petre Melikishvili Institute of Physical and Organic Chemistry, Laboratory of Petroleum Chemistry
Tinatin Gabunia PhD, TSU, Petre Melikishvili Institute of Physical and Organic Chemistry, Laboratory of Petroleum Chemistry
Madona Tsurtsumia PhD, TSU, Petre Melikishvili Institute of Physical and Organic Chemistry, Laboratory of Petroleum Chemistry

DOI: https://doi.org/10.31435/rsglobal_ws/30122018/6268

Keywords: Luminophore, bitumens, waste, petroleum, isolation, paraffin

Abstract

One of the main objectives of the project is to develop a methodology for obtaining high quality water-proofing materials. The above- mentioned high-melting tar mass will be used as the main raw material. Especial treatment and further homogenization of the mass – mixture of high-dispersive quartz sand, silicates and other wastes – gives possibility to make various universal and inexpensive compositions. With the aim to improve hydro-insulating and other specific characteristics of the compositions they will be varied by changing the ratio of ingredients. The elasticity of these compositions is conditioned by macromolecular paraffin-ceresin and the polymeric (rubber) components; varying the strength and adhesion is possible by soluble and insoluble silicate-quartz components. The mentioned components can be got in a large amount in region. Therefore, products obtained from cheap raw materials will be inexpensive. The use of the mentioned waste is also important to avoid the pollution of nature. Operating characteristics of the proposed luminophore satisfy requirements of international standarts. In particular, the solutions made from it have an ability to detect invisible cracks of the thick < 1 mm. The light intensity in its greenish-yellow area is 4,5-5 times more than that of standard - uranyl nitrate. It is stable with high quantum efficiency (40-45%).

References

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