Insulation material

Details Insulation material Insulation material

1999-09-24

2002-01-29

Andrews, Melvyn (Department: 1742)

Specialized metallurgical processes, compositions for use therei

Compositions

C075S414000, C075S303000, C075S433000, C075S709000

Reexamination Certificate

active

06342088

ABSTRACT:

TECHNICAL FIELD
The invention relates to an insulation material particularly suitable for insulating molten metals in ladies and tundishes.
BACKGROUND ART
Rice hull ash has been used widely in steel mills as an insulating cover on tundishes and ladies containing molten steel. The rice hull ash is a good insulator because it is inexpensive, it flows over and covers the steel surface well and does not crust or cause metals sculls during use. Rice hull ash is produced in various combustion processes around the world. The most desirable rice hull ash contains silica which is substantially amorphous.
The major problem with rice hull ash is that, because of its low bulk density and small particle size, some of the ash becomes airborne when it comes in contact with hot metal. The resulting dust can cause eye injuries as well as being a general nuisance in the immediate work place. Silica/carbon dust also causes electrical hazards in overhead crane switchgear and air conditioning filter systems.
Previous attempts to improve the properties of rice hull ash for molten steel insulation have met with limited success. Attempts have been made to produce agglomerated rice hull ash insulation products in the form of pellets, briquettes or simply agglomerated with a variety of binders. Binders that have been proposed in the past include bentonite clay and starch, starch, cement dust with starch, lime and molasses, rice flour and rice bran, sodium silicate, wood or paper pulp, and lignosulphonates. Examples of several types of rice hull ash insulation materials that have been produced can be found in U.S. Pat. No. 4,440,575 and U.S. Pat. No. 5,0723,281.
Unfortunately, a number a problems were exhibited in the prior art products due to the binders used. These problems include lower melting points causing crusting from the use of sodium silicate. The insulation material does not break down during use which inhibits spread and reduces the insulation effectiveness. Some binders cause excessive smoke or even flame during use which is particularly undesirable. Other binders introduce undesirable elements into the steel including elements such as sulphur. Many of the insulating products are of low density which may be ideal for insulation but result in increase in weight over neat rice hull ash causing higher transport costs.
The present inventors have been recognised that there is a need for an improved thermal insulating material which addresses many of the disadvantages of the prior art rice hull ash insulation materials.
DISCLOSURE OF INVENTION
In a first aspect, the present invention consists in a granular thermal insulating material comprising rice hull ash, ceramic clay binder, bran (preferably rice bran), and an exfoliating agent.
The present invention further consists in a granular thermal insulating material comprising rice hull ash, ceramic clay binder, bran (preferably rice bran), and an exfoliating agent, such that when the insulating material is exposed to a temperature of 1000° C. or more the material exfoliates to form an expanded particulate material.
The thermal insulating material is in the form of granules of a size and shape that allows convenient packaging and transport of the material. Furthermore, the granules are so formed such that in use there is little or no airborne dispersion of the material prior to expansion. Preferably the granules are in the form of pellets or disks.
The invention further consists in a granular thermal insulating material comprising 70 to 95%, preferably 85 to 95% by dry weight rice hull ash, 2 to 20%, preferably 5 to 15% by dry weight ceramic clay binder, 1 to 10% preferably 2 to 7% by weight of bran (preferably rice bran), 0.1 to 10%, preferably 0.2 to 5% by dry weight exfoliating agent, and 1 to 10%, preferably 1 to 5% by weight water.
Ceramic clay binders suitable for the present invention fall within the definition of “refractory clays” having appropriate ranges of the following elements:
SiO
2
<55%,Al
2
O
3
>20 %, K
2
O<1%, Na
2
O<0.5%
A suitable ceramic clay is Bentonite. An other ceramic clay suitable for the present invention is Clay Ceram™ made by Commercial Minerals Limited. Typical formula of this ceramic clay is set out in Table 1.
TABLE 1
Typical Chemical and Physical Properties of Clay Ceram ™
Component
Formula
Content
Silica
SiO
2
52.6% 
Magnesia
MgO
0.4%
Alumina
Al
2
O
3
32.3% 
Ferric Oxide
Fe
2
O
3▭
0.7%
Lime
CaO
0.1%
Potash
K
2
O
0.5%
Soda
Na
2
O
0.2%
Titanium Dioxide
TiO
2
1.0%
Loss on ignition
(1000° C.)
12.0% 
Bran is generally defined as the outer coating of a cereal grain. Rice bran is particularly suitable for the present invention and is the brown layer removed from a rice grain to produce white rice. Although rice bran is preferably used for the present invention, it will be appreciated that bran derived from other cereals would also be suitable.
It will be appreciated that any exfoliating agent that will cause the granular thermal insulating material to exfoliate (expand or breakdown) in the presence of temperatures of 1000° C. or more and form a finer particulate material would be suitable. Examples of such exfoliating agents include graphite, vermiculite and perlite. The preferred material, however, is exfoliating graphite. When vermiculite or perlite is used in the present invention, approximately five times more vermiculite or perlite is required than graphite as their exfoliating activity is not as great as graphite.
In a more preferred form the granular thermal insulating material comprises about 85% by dry weight rice hull ash, about 5% by dry weight ceramic clay binder, 5% rice bran, about 0.35% by dry weight exfoliating graphite, and about 4% by weight water.
In a second aspect, the present invention consists in a method for the production of a granular thermal insulating material comprising the steps of:
(a) admixing rice hull lash, ceramic clay binder, bran (preferably rice bran) and exfoliating agent;
(b) adding water to the mixture to form a slurry;
(c) forming the slurry mixture into granules; and
(d) substantially drying the material.
In a preferred embodiment of the second aspect of the present invention, in step (b) water is added between 25 and 50% by weight of the mixture. More preferably water is added at 30 to 35% weight of the final mixture prior to granulating. Steps (a) and (b) are preferably carried out in the same apparatus but can be carried out in any manner known to the art. A particularly suitable apparatus for the mixing the components and forming the slurry is a slow ribbon blender.
The granulation step (c) can be carried out in any known system for this process. Examples include briquetters, disk pelleters and extrusion pellet presses.
Preferably the granules are pellets of a cylindrical nature with approximate diameters of 4 mm to 12 mm. The more preferred pellet diameter is 8 mm with a length of 4 mm to 20 mm. It will be appreciated that the granules can be of any size suitable for packaging and use in overlaying molten metals.
The drying step (d) can be carried out in any known drying system. In order to reduce the incidence of generation of fines, however, it is preferred that the drying process is gently. In this regard, temperatures of 100° C. to 130° C. have been found to be suitable. Preferably the drying results in a granular thermal insulating material having less than about 5% by weight as retained water.
In a third aspect, the present invention consists in a method of insulating molten steel or metal comprising adding to the molten steel or metal a granular thermal insulating material according to the first aspect of the present invention such that the insulating material is caused to exfoliate (expand or breakdown) on exposure to a temperature of 1000° C. or more from the molten steel or metal thereby forming a thermal insulating layer over the molten steel or metal.
The present invention further consists in use of a granular thermal insulating material according to the first aspect of the present invention for insulating molten steel or m

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