A platform for research: civil engineering, architecture and urbanism
Состав и способ изготовления динасового жаростойкого бетона
FIELD: construction.SUBSTANCE: invention relates to refractory materials industry and can be used for manufacturing articles made of dinas heat-resistant concrete. Composition for manufacturing dinas heat-resistant concrete, which includes: binder, dinas aggregate, fine fillers and water, contains as a binder colloidal nanodispersed sodium polysilicates with a silicate module 6.5 and fine-grained fillers – zircon concentrate and natural amorphous finely divided silica with the following component ratio, mass %: dinas filler of fraction 0.15–7 mm 54–80, finely ground dinas with S= 2500–3000 cm/g 4–12, finely ground zircon concentrate with S= 2500–3000 cm/g 7–16, natural amorphous finely divided silica 4–8, colloidal nanodispersed sodium polysilicate 5–14, water from the calculation of V/T 0.12–0.14 on the mass of the dry components. Method for manufacturing dinas heat-resistant concrete from the said composition is that sodium colloidal nano-dispersed polysilicate with silica modulus 6.5 is preliminary prepared by adding 16 % silicon dioxide hydrosol to 20 % aqueous solution of sodium silicate with their ratio of 1:1.5, are mixed at 95 °C for 1.5 hours with holding of not more than 0.5 hours, while simultaneous stirring in high-speed mixer floured fillers are introduced: magnesite with specific surface area of 2500–3000 cm/g, natural amorphous finely divided silica and water from the calculation of B/T 0.12–0.14 (based on the mass of the dry components, depending on the composition of the mixture) to obtain a homogeneous suspension that is mixed with the refractory dynas filler in a paddle mixer of forced action until a homogeneous mass is obtained, further, this mass is formed by pressing at a specific pressure of 40 MPa, hardening of which is carried out during the drying process: increase in temperature from 20 to 90 °C = 1.5 hours, holding at 90 ± 5 °C – 0.5 h, then increasing the temperature to 200 °C – 1 hour, 2 hours.EFFECT: technical result is increased thermal stability and water resistance of articles made of dinas heat-resistant concrete.2 cl, 2 tbl
Состав и способ изготовления динасового жаростойкого бетона
FIELD: construction.SUBSTANCE: invention relates to refractory materials industry and can be used for manufacturing articles made of dinas heat-resistant concrete. Composition for manufacturing dinas heat-resistant concrete, which includes: binder, dinas aggregate, fine fillers and water, contains as a binder colloidal nanodispersed sodium polysilicates with a silicate module 6.5 and fine-grained fillers – zircon concentrate and natural amorphous finely divided silica with the following component ratio, mass %: dinas filler of fraction 0.15–7 mm 54–80, finely ground dinas with S= 2500–3000 cm/g 4–12, finely ground zircon concentrate with S= 2500–3000 cm/g 7–16, natural amorphous finely divided silica 4–8, colloidal nanodispersed sodium polysilicate 5–14, water from the calculation of V/T 0.12–0.14 on the mass of the dry components. Method for manufacturing dinas heat-resistant concrete from the said composition is that sodium colloidal nano-dispersed polysilicate with silica modulus 6.5 is preliminary prepared by adding 16 % silicon dioxide hydrosol to 20 % aqueous solution of sodium silicate with their ratio of 1:1.5, are mixed at 95 °C for 1.5 hours with holding of not more than 0.5 hours, while simultaneous stirring in high-speed mixer floured fillers are introduced: magnesite with specific surface area of 2500–3000 cm/g, natural amorphous finely divided silica and water from the calculation of B/T 0.12–0.14 (based on the mass of the dry components, depending on the composition of the mixture) to obtain a homogeneous suspension that is mixed with the refractory dynas filler in a paddle mixer of forced action until a homogeneous mass is obtained, further, this mass is formed by pressing at a specific pressure of 40 MPa, hardening of which is carried out during the drying process: increase in temperature from 20 to 90 °C = 1.5 hours, holding at 90 ± 5 °C – 0.5 h, then increasing the temperature to 200 °C – 1 hour, 2 hours.EFFECT: technical result is increased thermal stability and water resistance of articles made of dinas heat-resistant concrete.2 cl, 2 tbl
Состав и способ изготовления динасового жаростойкого бетона
2017-07-05
Patent
Electronic Resource
Russian
IPC:
C04B
Kalk
,
LIME
Состав и способ изготовления хромомагнезитового жаростойкого бетона
European Patent Office | 2018
Состав и способ изготовления шамотного жаростойкого бетона
European Patent Office | 2017
Состав и способ изготовления корундового жаростойкого бетона
European Patent Office | 2018
Состав и способ изготовления кварцитового жаростойкого бетона
European Patent Office | 2017
European Patent Office | 2019