Abstract

An effective energy-saving technology for producing composite glass-crystal facing materials based on fractionated cullet of sheet and container glasses, cullet of porcelain and sodium liquid glass has been developed. The use of fine porcelain powder in the composition of composite glass-crystal facing materials in an amount of up to 10 wt is justified. % and liquid sodium glass up to 5 wt. %. It is shown that the optimal fractional composition of granulated mixed cullet is 35 wt. % fraction 0.63-0.80 mm; 35 wt. % - fractions of 0.80-1.25 mm and 30 wt. % fraction of 1.25-3.15 mm. Polytherms of viscosity of colorless, green and brown container glasses, as well as sheet glass, are calculated. The possibility of using mixed cullet for obtaining composite glass-crystal facing materials is on the basis of obtained dependencies. The chemical composition of sheet and container glasses and porcelain is studied using x-ray fluorescence analysis. Optimal charge compositions have been developed to obtain glass-crystal materials with compressive strength up to 79 MPa. The technology of obtaining composite glass-ceramic facing material includes the following technological operations: milling of glass breakage; grinding cullet of porcelain; drying of sodium liquid glass; the screening of crushed cullet on fractions; the grind of crushed cullet of China; grinding the dried sodium silicate glass; weighing the components in accordance with the developed formulations, the averaging of the graded cullet with fine porcelain; averaging the mixture of finely ground dried sodium silicate glass; stacking the mixture in a metal mold; compaction of the mixture in metal molds; heat treatment in a muffle furnace (sintering); extraction of facing tiles from molds; trimming the edges of the tiles with a diamond saw; quality control of finished products.

Highlights

  • Dorokhova E.S., Zhernovoi F.E., Izotova I.A., Bessmertnyi V.S., Zhernovaya N.F., Tarasova E.E.Shrink-free face material based on cullet and colemanite // Glass and Ceramics. 2016

  • An effective energy-saving technology for producing composite glass-crystal facing materials based on fractionated cullet of sheet and container glasses, cullet of porcelain and sodium liquid glass has been developed

  • It is shown that the optimal fractional composition of granulated mixed cullet is 35 wt. % fraction 0.63–0.80 mm; 35 wt. % – fractions of 0.80–1.25 mm and 30 wt. % fraction of 1.25–3.15 mm

Read more

Summary

Твердый фарфор

Для прогнозирования составов смешанные стекла и твердый фарфор измельчали и рассевали на ситах. После рассева на фракции разработанные составы после взвешивания на аналитических весах усредняли в лабораторном смесителе, увлажняли жидким стеклом и спекали в муфельной печи. Состав фракций гранулированного стекла и их соотношение в исходных шихтах представлен в таблице 3. Разработанные составы помещали в муфельную печь и обжигали при температурах 675 °С, 700 °С, 715 °С, 725 °С, 735 °С и 750 °С. Наилучшие результаты были получены при температуре 725 °С. После термообработки исследовали эксплуатационные характеристики облицовочных стеклокристаллических материалов После термообработки исследовали эксплуатационные характеристики облицовочных стеклокристаллических материалов (табл. 4)

Фракционный состав гранулированного стекла
БИБЛИОГРАФИЧЕСКИЙ СПИСОК

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.