Show metadata Hide metadata

(19)

(11)

2 793 497

(13)

(51)

IPC

E04B2/84(2006-01-01)

B28B1/00(2006-01-01)

B33Y10/00(2015-01-01)

C04B28/04(2006-01-01)

C04B111/20(2006-01-01)

(21) (22)

Application

2022128284, 2022-11-01

(24)

Start date

2022-11-01

(22)

Actual filing date

2022-11-01

(45)

Published

2023-04-04

(72)

Inventor

Mukhametrakhimov Rustem Khanifovich

(73)

Holder

Federalnoe Gosudarstvennoe Biudzhetnoe Obrazovatelnoe Uchrezhdenie Vysshego Obrazovaniia Gosudarstvennyi Arkhitekturno-Stroitelnyi Universitet»

ADDITIVE MANUFACTURING METHOD IN CONSTRUCTION WITH A LONG TECHNOLOGICAL BREAK Russian patent published in 2023 - IPC E04B2/84 B28B1/00 B33Y10/00 C04B28/04 C04B111/20

Abstract RU 2793497 C1

FIELD: construction.

SUBSTANCE: used for additive manufacturing by layer-by-layer extrusion (3D printing) of construction products, structures, buildings and constructions. The method of additive construction production with a long technological break includes preparing a concrete mixture, including Portland cement, quartz sand with a fineness modulus of 1.2-3 and water, squeezing it out in the form of a moulding filament through a printer dispensing head and laying it in the design position. At the same time, the modified concrete mixture for the transition layer is prepared and it is laid on the filament from the specified concrete mixture, a process break is carried out for 10, 360 or 720 minutes, followed by the resumption of laying after the process break of the specified filament, while the modified concrete mixture for the transition layer includes Portland cement, quartz sand with a fineness modulus of 1.2-3, MasterGlenium ACE 430 superplasticizer based on polycarboxylate ether, finely ground pozzolanic component - diatomite with a hydraulic activity of at least 1500 mg/g, a grinding degree of at least 1400 m²/kg, organosilicon compound - potassium methyl siliconate and water with t a certain content of components.

EFFECT: longer process breaks (up to 12 hours) without the formation of cold joints or reduction the adhesion of layers laid immediately before and after the process break, due to a transition layer from a modified concrete mixture, which causes high quality construction products.

1 cl, 2 tbl

Similar patents RU2793497C1

Title	Year	Author	Number
ADDITIVE CONSTRUCTION MANUFACTURING METHOD	2022	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna Safina Alina Danilovna	RU2791841C1
METHOD OF 3D PRINTING USING MODIFIED CONCRETE MIX	2022	Mukhametrakhimov Rustem Khanifovich	RU2795274C1
METHOD OF ADDITIVE CONSTRUCTION PRODUCTION WITH TRANSITION LAYER TO ENSURE ADHESION OF LAYERS DURING LONG TECHNOLOGICAL BREAKS	2023	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna Safina Alina Danilovna	RU2821489C1
METHOD OF 3D PRINTING WITH MODIFIED CONCRETE MIXTURE WITH CONTROLLED DURATION OF TECHNOLOGICAL BREAK	2023	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna Galautdinov Albert Radikovich	RU2825371C1
METHOD OF ADDITIVE CONSTRUCTION PRODUCTION WITH CONTROLLED DURATION OF TECHNOLOGICAL BREAK	2023	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna	RU2823726C1
ADDITIVE BUILDING PRODUCTION METHOD BY MATERIAL EXTRUSION	2022	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna	RU2789119C1
METHOD FOR 3D CONCRETE PRINTING WITH LONG TECHNOLOGICAL BREAK	2022	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna	RU2794037C1
METHOD OF 3D PRINT CONSTRUCTION BY LAYER-BY-LAYER EXTRUSION	2022	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna	RU2792455C1
METHOD OF 3D PRINTING WITH TRANSITION LAYER TO ENSURE ADHESION OF LAYERS DURING LONG TECHNOLOGICAL BREAKS	2023	Mukhametrakhimov Rustem Khanifovich	RU2821488C1
METHOD OF CONSTRUCTION 3D PRINTING BY LAYER-BY-LAYER EXTRUSION WITH CONTROLLED DURATION OF TECHNOLOGICAL BREAK	2023	Mukhametrakhimov Rustem Khanifovich Ziganshina Liliia Valievna	RU2821490C1

RU 2 793 497 C1

Authors

Mukhametrakhimov Rustem Khanifovich

Dates

2023-04-04—Published

2022-11-01—Filed