Факультет якості та інженерії матеріалів (ІПБТ) <br> Інститут промислових та бізнес технологій (ІПБТ)
Permanent URI for this community
UK: Факультет якості та інженерії матеріалів (ІПБТ)
Інститут промислових та бізнес технологій (ІПБТ) EN: Faculty of Quality and Engineering of Materials (IIBT)
Institute of Industrial and Business Technologies
Інститут промислових та бізнес технологій (ІПБТ) EN: Faculty of Quality and Engineering of Materials (IIBT)
Institute of Industrial and Business Technologies
Browse
Browsing Факультет якості та інженерії матеріалів (ІПБТ) <br> Інститут промислових та бізнес технологій (ІПБТ) by Author "Bilyi, Oleksandr P."
Now showing 1 - 1 of 1
Results Per Page
Sort Options
Item Water Resistance of Structured Sand-Sodium-Silicate Mixtures(Dnipro University of Technology, 2021) Solonenko, L. I.; Repiakh, Serhii I.; Uzlov, Kostiantyn I.; Mamuzich, I.; Bilyi, Oleksandr P.; Kimstach, Tetiana V.ENG: Purpose. To establish regularities of changes in sand-sodium-silicate mixtures (SSSM) relative water resistance, structured by steam-microwave solidification method (SMS), on their structuring parameters and sodium silicate solute (SSS) dissolution conditions. Methodology. Technical purity water, SSS with 2.8–3.0 silicate modulus, quartz sand with 0.23 mm average particle size were used in this work. Studies were carried out on quartz sand samples, which were preliminarily cladded with 0.5–2.5 % (by weight) SSS and structured by SMS method. The fracture time of structured mixtures was evaluated on cubic specimens with 20 mm rib length, which were immersed in water at different temperatures. Findings. Changes in SSSM water resistance in water regularities depending on their manufacturing, use and storage conditions were established. Recommendations for SSSM rods removal from castings in water were developed. Originality. For the first time, it has been established that relative water resistance of the SSSM structured by SMS method decreases along with increase in water temperature in which it is destroyed. Depending on SSS mass used for quartz sand cladding in range 0.5–2.5 %, water resistance dependence on treatment in steam-microwave environment with 2–7 minutes’ running time acquires an inversion character with inversion point ∼3.1 minutes into the processing. For the first time, it has been discovered that in boiling water the relative water resistance of SSSM, structured by SMS-process and having preheating, monotonically increases with preheating temperature rising from 100 to 600 °С, sharply increases when heated to 600–700 °С and practically becomes absolute after preliminarily preheating to higher temperatures. Practical value. Research results will be useful in concepts of processes accompanying destruction of structured sands with water-soluble binders expanding, as well as in technologies and equipment development designed for SSS rods and mold rests removing from castings.