RU2002135311A

RU2002135311A - POROUS SOUND-ABSORBING CERAMIC PRODUCTS AND METHOD FOR PRODUCING THEM

Info

Publication number: RU2002135311A
Application number: RU2002135311/03A
Authority: RU
Inventors: Казуо ОДА; Норихо ОДА; Нобуаки МИЯО
Original assignee: МИЗУТАНИ, Масару; Ода Констракшн Ко., Лтд.
Priority date: 2000-10-17
Filing date: 2001-10-17
Publication date: 2004-04-20

Claims

1. A porous sound-absorbing ceramic product made of a porous ceramic material with interconnected pores and a specific gravity of 0.3-1.5, and the porous ceramic material consists essentially of 100 parts by weight perlite with a grain diameter of 0.10–8.00 mm, 80–250 parts by weight of at least one of the sintered materials selected from the group including fly ash, slag, quartz, lava, stones or clay, as base material, 5-30 parts by weight an inorganic binder, wherein after sintering the mixture, the perlite particles are surrounded by a base material and a binder, and these perlite particles form interconnected holes between their contact surfaces, so that the inner pores are interconnected pores.

2. A porous sound-absorbing ceramic product made of a porous ceramic material with interconnected pores and a specific gravity of 0.5-1.0, and the porous ceramic material consists essentially of 100 parts by weight perlite with a grain diameter of 0.50–2.00 mm, 100-200 parts by weight of at least one of the sintered materials selected from the group comprising fly ash, chamotte, wollastonite, slag, quartz, lava, clay, as the main material, 10–20 parts by weight an inorganic binder, wherein after sintering the mixture, the perlite particles are surrounded by a base material and a binder, and these perlite particles form interconnected holes between their contact surfaces, so that the inner pores are interconnected pores.

3. A porous sound-absorbing ceramic product made of a porous ceramic material with interconnected pores and a specific gravity of 0.5–1.0, a bending resistance of 10–28 kgf / cm ² , and a compressive resistance of 40–90 kgf / cm ² , and the porous the ceramic material consists essentially of 100 parts by weight perlite with a grain diameter of 0.50–2.00 mm, 100-200 parts by weight sintered fly ash as the main material and 10–20 parts by weight an inorganic binder, wherein after sintering the mixture, the perlite particles are surrounded by a base material and a binder, and these perlite particles form interconnected holes between their contact surfaces, so that the inner pores are interconnected pores.

4. A porous sound-absorbing ceramic product according to one of claims 1 to 3, wherein crushed and expanded rocks, obsidian or pechstein, are added to the perlite.

5. A porous sound-absorbing ceramic product according to one of claims 1 to 4, with 10-50 parts by weight added to the base material. glass.

6. A porous sound-absorbing ceramic product according to one of claims 1 to 5, with an agent for creating crystallization centers added to at least perlite and / or the base material for crystallization.

7. A porous sound-absorbing ceramic product according to one of claims 1 to 6, wherein at least 1-10 parts by weight are added to the base material. one of the short fiber materials selected from the group consisting of metal fiber, fiberglass, carbon fiber, ceramic fiber, mineral fiber or whiskers.

8. A porous sound-absorbing ceramic product according to one of claims 1 to 7, made in the form of a brick.

9. A porous sound-absorbing ceramic product according to one of claims 1 to 8, made in the form of various tiles or slabs.

10. A method of manufacturing a porous sound-absorbing ceramic product from a porous ceramic material with interconnected pores and a specific gravity of 0.3-1.2, including the following operations: to 100 parts by weight perlite with a grain diameter of 0.10-3.5 mm add 100-250 parts by weight of at least one powdery substance selected from the group including fly ash, chamotte, wollastonite, slag, quartz, lava, stone, sludge or clay, 5-30 parts by weight binder and 10-50 parts by weight water, the resulting mass is placed in the desired form, dried, and then fired at a temperature of 900-1200 ° C.

11. A method of manufacturing a porous sound-absorbing ceramic product from a porous ceramic material with interconnected pores and a specific gravity of 0.5-1.2, including the following operations: to 100 parts by weight perlite with a grain diameter of 0.50-2.0 mm add 35-60 parts by weight of at least one powdery substance selected from the group consisting of fly ash, chamotte, wollastonite, slag, quartz, lava, stone, sludge or clay, 10-25 parts by weight binder and 20–45 parts by weight water, the resulting mass is placed in the required form, squeezed under a pressure of 8-15 kgf / cm ² , dried, and then fired at a temperature of 950-1150 ° C.

12. A method of manufacturing a porous sound-absorbing ceramic product from a porous ceramic material with interconnected pores and a specific gravity of 0.5-1.0, bending strength of 15-28 kgf / cm ² and compressive strength of 40-90 kgf / cm ² , including the following operations: to 100 parts by weight perlite with a grain diameter of 0.50–2.0 mm add 35-60 parts by weight fly ash, 10-25 parts by weight binder and 20–45 parts by weight water, after which the resulting mass is placed in a mold and compressed under pressure of 8-15 kgf / cm ² , dried, and then fired at a temperature of 950–1150 ° С.

13. A method of manufacturing a porous sound-absorbing ceramic product according to one of paragraphs.10-12, moreover, liquid glass is used as a binder.

14. A method of manufacturing a porous sound-absorbing ceramic product according to one of claims 10 to 13, wherein an agent is added to the mixture to form crystallization centers for crystallizing glass.

15. A method of manufacturing a porous sound-absorbing ceramic product according to 14, and for the crystallization of glass, the material is gradually cooled after firing the semi-finished product.

16. A method of manufacturing a porous sound-absorbing ceramic product according to one of paragraphs.10-15, and the binder contains an organic binder.

17. A method of manufacturing a porous sound-absorbing ceramic product according to one of paragraphs.10-16, and the semi-finished product is molded with the addition of 100 parts by weight fly ash powder with a grain diameter of 5-50 μm 5-10 parts by weight of at least one material selected from the group consisting of metal fiber, glass fiber, carbon fiber, ceramic fiber, mineral fiber, organic fiber and whiskers.

18. A method of manufacturing a porous sound-absorbing ceramic product according to one of paragraphs.10-17, and the product is made in the form of a brick.

19. A method of manufacturing a porous sound-absorbing ceramic product according to one of paragraphs.10-17, and the product is made in the form of various tiles or slabs.