[0001] The invention concerns the lining of containers for molten metal.
[0002] Containers for molten metal commonly comprise a metal casing lined with refractory
brickwork or a monolithic refractory lining and this lining is often termed the permanent
lining. The permanent lining is subject to damage and is expensive and time-consuming
to repair or replace. In particular, after use, a residue (skull) of solidified molten
metal and slag may adhere to the lining, and require removal before re-use of the
container, and may be difficult to remove and its removal may damage the lining.
[0003] In view of the above problems, it has been proposed to protect the permanent lining
by an inner layer or layers, which may also serve other purposes. GB-A-1477632 discloses
application of two layers over the permanent lining. The first layer is a parting
layer comprising particulate carbonaceous material, e.g. coke dust and is free or
substantially free of permanent binding agent. The first layer may be applied as a
liquid or paste composition by, for example, spraying or trowelling. The second, i.e.
inner, layer is of bonded particulate refractory material and may be applied by, for
example, trowelling on a coating. composition. The combination of the two layers protects
the permanent lining and in particular enables clean stripping of skull, e.g from
a tundish without damage to the permanent lining. The layers are re-applied before
each re-use of the container.
[0004] It is one object of the invention to provide a way of protecting the permanent lining
when the second layer comprises a set of refractory heat insulating slabs. The invention
is based on the realisation that in such a case a thin flexible sheet of heat carbonisable
material can serve as the parting layer.
[0005] According to one aspect of the invention there is provided a container for molten
metal, the container having a permanent lining on which there is a parting layer of
heat carbonisable material and a second layer of refractory heat insulating material
to be contacted by the molten metal characterised in that the parting layer comprises
one or more sheets of heat carbonisable material, each from 0.1 mm to 2 mm thick,
the sheet or sheets being held to the adjacent permanent lining irrespective of any
irregularities on the surface thereof and in that the second layer comprises a set
of refractory heat insulating slabs.
[0006] In another aspect, the invention provides a method of treating a container for molten
metal, the container having a permanent refractory lining, so that after the metal
has been received and removed from the container the container may be lined for re-use,
the method comprising applying a parting layer of heat carbonisable material followed
by a layer of bonded particulate refractory material characterised in that
[0007] (i) the parting layer comprises one or more sheets each from 0.1 mm to 2 mm thick
which are held to the permanent lining irrespective of any irregularity in the surface
thereof, and
[0008] (ii) the second layer comprises a set of refractory heat insulating slabs which define
an inner lining to contact the molten metal.
[0009] When the container contains molten metal, sufficient heat is conducted from the metal
through the inner lining to the sheet material to carbonise the latter to yield a
carbonaceous residue. Alternatively, the inner lining may be pre-heated before molten
metal is introduced into the container and pre-heating may suffice to carbonise the
sheet material to yield a carbonaceous residue. The carbonaceous residue provides
a valuable parting layer facilitating removal of skull and the inner lining and without
damage to the permanent lining.
[0010] The heat-carbonisable sheet material may be, for example, newsprint, kraft paper,
cardboard (e.g. laminated corrugated cardboard), wall paper, hessian, straw matting
or woven polyethylene or polypropylene.
[0011] The heat-carbonisable sheet material is flexible and this is of value in positioning
it as desired, especially if the permanent lining has irregularities at its surface
e.g. cavities or areas of adhering extraneous matter. Moreover suitable sheet materials
are available as large pieces and can easily be cut to size. Accordingly, the layer
of heat-carbonisable sheet material can be provided quickly and easily. To hold the
sheet material against the permanent lining before the inner lining is applied, clips
or an adhesive can be used if desired, for example at places where the permanent lining
is generally upright and if the sheet material is very flexible e.g. newsprint rather
than less flexible e.g. cardboard. In the case of newsprint even water will provide
sufficient adhesion and in general a variety of widely available inexpensive adhesives
e.g. starch- based ones are suitable.
[0012] If the sheet material used is thin e.g. newsprint it may be desirable to use a number
of pieces of it superimposed to form the layer whereas with thicker sheet materials
e.g. cardboard a single thickness may suffice.
[0013] In containers for molten metal having an inner lining and a permanent lining, the
tendency for the inner lining (with adhering skull) to become fused to the permanent
lining may only be significant at certain parts of the container. For example, in
the case of tundishes the above tendency for fusion to occur is most marked at the
floor of the tundish and at the slag line i.e. the usual level of slag on the top
surface of the molten metal in the tundish. Accordingly, in a container according
to the invention the heat-carbonisable sheet material may be provided only at those
places where there is a significant risk of the inner lining becoming fused to the
permanent lining.
[0014] The inner lining keeps the carbonaceous residue in place to serve its eventual function
as a parting layer. The inner lining and the carbonaceous residue also protect the
permanent lining from attack by molten metal and slag in the container.
[0015] The inner lining may be provided by a set of slabs of refractory heat-insulating
material as described in relation to tundishes in U.K. patent specification 1364665.
In accordance with the invention it is however sometimes preferred that the inner
lining should be of a unitary construction, preferably formed in situ. The inner lining
may be formed by applying a refractory, coating composition and this may be done,
for example, by trowelling but it is preferred to apply the composition by spraying.
[0016] Coating compositions for forming the inner lining are preferably based on one or
more particulate refractory materials and an inorganic binding agent. Examples of
suitable particulate refractory materials include silica, chamotte, olivine, sillimanite,
zircon, magnesia, alumina and zirconia. Examples of suitable inorganic binding agents
include silicates, phosphates and aluminates of alkali or alkaline earth metals, colloidal
oxide hydrosols and clays. In order to enhance the initial strength or cohesion of
the applied coating composition a proportion preferably 0.5 to 5% by weight, of fibre
may be included in the composition. The fibres may also serve to enhance the heat-insulation
provided by the composition. It is usually preferred that the inner lining should
be heat-insulating. The fibre content may be organic and/or inorganic and an example
of organic fibre is chopped straw whilst an example of an inorganic fibre is glass
fibre. Organic binder may also be present in the composition.
[0017] The thickness of the inner lining is preferably from 10 to 50 mm.
[0018] If the inner lining is provided by use of a coating composition containing a significant
proportion of moisture or a binder that requires heating to harden, the composition
after application can be heated to drive off moisture or harden the binder.
[0019] If the inner lining is provided by pre-formed articles, e.g. slabs, when the container
is in use or during any pre-heating, certain consitituents of the lining e.g. soda
may tend to migrate to the back of the lining under the influence of the heat and,
in the absence of the parting layer cause the inner lining to adhere to the premanent
lining. Likewise, in the case of an inner lining provided by a coating composition
any water-soluble binder e.g. sodium silicate in the composition may tend to migrate
to the back of the lining during use or any pre-heating. In such cases the parting
layer present in accordance with the invention is particulary valuable.
[0020] The invention is of particular value where the container is a tundish but it is also
of use in the case of other containers for molten metal, e.g. ladles. The invention
is particularly useful in the case of containers for molten ferrous metals e.g. steel.
[0021] The method of lining the container forms a part of the invention.
[0022] An example of a container according to the invention is a tundish (for use in the
continuous casting of steel) having an outer, metal shell, a monolithic permanent
lining of cast refractory material adjacent the shell, a parting layer overlying the
permanent lining and provided by laminated corrugated cardboard (thickness about 1.5
mm) on the floor of the tundish and a number of layers (total thickness about 0.2
mm) of newsprint on the walls of the tundish, and, overlying the parting layer, a
layer applied by spraying a composition of particulate refractory material and inorganic
binder.
1. A container for molten metal, the container having a permanent lining on which
there is a parting layer of heat carbonisable material and a second layer of refractory
heat insulating material to be contacted by the molten metal characterised in that
the parting layer comprises one or more sheets of heat carbonisable material, each
from 0.1 mm to 2 mm thick, the sheet or sheets being held to the adjacent permanent
lining irrespective of any irregularities on the surface thereof and in that the second
layer comprises a set of refractory heat insulating slabs.
2. A container according to Claim 1 characterised in that the sheet or sheets is/are
held to the permanent lining by clips or adhesive.
3. A container according to Claim 1 or 2 characterised in that the sheet or sheets
is/are formed of newsprint, Kraft paper, cardboard, wallpaper, hessian, straw matting,
woven polyethylene or polypropylene.
4. A method of treating a container for molten metal, the container having a permanent
refractory lining, so that after the metal has been received and removed from the
container the container may be lined for reuse, the method comprising applying a parting
layer of heat carbonisable material followed by a layer of bonded particulate refractory
material characterised in that
(i) the parting layer comprises one or more sheets each from 0.1 mm to 2 mm thick
which are held to the permanent lining irrespective of any irregularity in the surface
thereof, and
(ii) the second layer comprises a set of refractory heat insulating slabs which define
an inner lining to contact the molten metal.
5. A method according to Claim 4 characterised in that the sheet or sheets is/are
held to the permanent lining by clips or adhesive.
1. Behälter für schmelzflüssiges Metall, wobei dieser ein dauerhaftes Futter mit einer
darüberliegenden Trennschicht aus durch Hitze verkohlbarem Material und eine zweite
Schicht aus mit dem schmelzflüssigem Metall in Berührung zu kommendem, feuerfesten
Wärmeisolationsmaterial aufweist, dadurch gekennzeichnet, daß die Trennschicht aus
einer oder mehreren, je 0,1 mm bis 2 mm dicken Lagen aus durch Hitze verkohlbarem
Material besteht, wobei die Lage bzw. Lagen an dem benachbarten dauerhaften Futter
angeachtet irgendwelcher Unebenheiten auf dessen Oberfläche gehalten werden, und daß
die zweite Lage aus einem Satz feuerfester Wärmeisolationsplatten besteht.
2. Behälter nach Anspruch 1, dadurch gekennzeichnet, daß die Lage bzw. Lagen an dem
dauerhaften Futter durch Klammern oder Klebemittel gehalten ist bzw. sind.
3. Behälter nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß die Lage bzw. Lagen
aus Zeitungspapier, Kraftpapier, Pappe, Tapete, Sackleinwand, Strohmatten, Polyäthylen-
oder Polypropylengewebe bestehen.
4. Verfahren zur Behandlung eines Behälters für schmelzflüssiges Metall, wobei dieser
ein dauerhaftes feuerfestes Futter aufweist, so daß nach Aufnahme des Metalls und
dessen Entnahme aus dem Behälter dieser zur Wiederverwendung gefüttert werden kann,
wobei man eine Trennschicht aus durch Hitze verkohlbarem Material und danach eine
Schicht aus gebundenem teilchenförmigen feuerfesten Material aufbringt, dadurch gekennzeichnet,
daß
(i) die Trennschicht aus einer oder mehreren, je 0,1 mm bis 2 mm dicken Lagen besteht,
die an dem dauerhaften Futter ungeachtet irgendwelcher Unebenheiten auf dessen Oberfläche
gehalten werden, und
(ii) die zweite Lage aus einem Satz feuerfester Wärmeisolationsplatten besteht, welche
ein inneres Futter zur Berührung mit dem schmelzflüssigen Metall darstellen.
5. Verfahren nach Anspruch 4, dadurch gekennzeichnet, daß die Lage bzw. Lagen an dem
dauerhaften Futter durch Klammern oder Klebemittel gehalten ist bzw. sind.
1. Récipient pour métal fondu, le récipient ayant un garnissage permanent sur lequel
il y a une couche de séparation en matériau carbonisable à chaud et une seconde couche
en matériau réfractaire thermo-isolant destiné à entrer en contact avec le métal fondu,
caractérisé en ce que la couche de séparation comprend une ou plusieurs feuilles de
matériau carbonisable à chaud, chacune ayant une épaisseur de 0,1 mm à 2 mm, la feuille
ou les feuilles étant maintenue(s) contre le garnissage permanent adjacent quelles
que soient les irrégularités de la surface de celui-ci et en ce que la seconde couche
comprend un ensemble de plaques réfractaires thermo-isolantes.
2. Récipient suivant la revendication 1, caractérisé en ce que la feuille ou les feuilles
est/sont maintenue(s) contre le garnissage permanent au moyen de pinces ou de colle.
3. Récipient suivant la revendication 1 ou 2, caractérisé en ce que la feuille ou
les feuilles est/ sont constituée(s) de papier journal, de papier kraft, de carton,
de papier peint, de toile d'emballage, d'une natte de paille, d'un tissue de polyéthylène
ou de polypropylène.
4. Procédé de traitement d'un récipient pour métal fondu, le récipient ayant un garnissage
réfractaire permament, de telle façon qu'après que le métal ait été reçu et évacué
du récipient, le récipient puisse être pourvu d'un nouveau garnissage en vue de sa
réutilisation, le procédé comprenant l'application d'une couche de séparation en matériau
carbonisable à chaud suivie d'une couche de matériau réfractaire particulaire lié,
caractérisé en ce que
(i) la couche de séparation comprend une ou plusieurs feuilles ayant chacune une épaisseur
de 0,1 mm à 2 mm, qui sont maintenues contre le garnissage permanent quelles que soient
les irrégularités de la surface de celui-ci, en en ce que
(ii) la seconde couche comprend un ensemble de plaques réfractaires thermo-isolantes,
qui constituent un garnissage intérieur destiné à entrer en contact avec le métal
fondu.
5. Procédé suivant la revendication 4, caractérisé en ce que la feuille ou les feuilles
est/sont maintenue(s) contre la garnissage permanent au moyen de pinces ou de colle.