India
联系人 Abhishek
SHOP NO. 18, MORBI SHOPPING CENTER NEAR AAYUSH HOSPITAL AYODHYAPURI MAIN ROAD, WWW.JJINTERNATIONALS., MORBI, GUJARAT
The Manufacturing
Process
Once the raw materials are processed, a number of steps take place
to obtain the finished product. These steps include batching,
mixing and grinding, spray-drying, forming, drying, glazing, and
firing. Many of these steps are now accomplished using automated
equipment.
Batching
1 For many ceramic products, including tile, the body composition
is determined by the amount and type of raw materials. The raw
materials also determine the color of the tile body, which can be
red or white in color, depending on the amount of iron-containing
raw materials used. Therefore, it is important to mix the right
amounts together to achieve the desired properties. Batch
calculations are thus required, which must take into consideration
both physical properties and chemical compositions of the raw
materials. Once the appropriate weight of each raw material is
determined, the raw materials must be mixed together.
Mixing and grinding
2 Once the ingredients are weighed, they are added together into a
shell mixer, ribbon mixer, or intensive mixer. A shell mixer
consists of two cylinders joined into a V, which rotates to tumble
and mix the material. A ribbon mixer uses helical vanes, and an
intensive mixer uses rapidly revolving plows. This step further
grinds the ingredients, resulting in a finer particle size that
improves the subsequent forming process (see step #4 below).
Sometimes it is necessary to add water to improve the mixing of a
multiple-ingredient batch as well as to achieve fine grinding. This
process is called wet milling and is often performed using a ball
mill. The resulting water-filled mixture is called a slurry or
slip. The water is then removed from the slurry by filter pressing
(which removes ****0 percent of the moisture), followed by dry
milling.
Spray drying
3 If wet milling is first used, the excess water is usually removed
via spray drying. This involves pumping the slurry to an atomizer
consisting of a rapidly rotating disk or nozzle. Droplets of the
slip are dried as they are heated by a rising hot air column,
forming small, free flowing granules that result in a powder
suitable for forming.
Tile bodies can also be prepared by dry grinding followed by
granulation. Granulation uses a machine in which the mixture of
previously dry-ground material is mixed with water in order to form
the particles into granules, which again form a powder ready for
forming.
Forming
4 Most tile is formed by dry pressing. In this method, the free
flowing powder—containing organic binder or a low percentage of
moisture—flows from a hopper into the forming die. The material is
compressed in a steel cavity by steel plungers and is then ejected
by the bottom plunger. Automated presses are used with operating
pressures as high as 2,**0 tons.
Several other methods are also used where the tile body is in a
wetter, more moldable form. Extrusion plus punching is used to
produce irregularly shaped tile and thinner tile faster and more
economically. This involves compacting a plastic mass in a
high-pressure cylinder and forcing the material to flow out of the
cylinder into short slugs. These slugs are then punched into one or
more tiles using hydraulic or pneumatic punching presses.
Ram pressing is often used for heavily profiled tiles. With this
method, extruded slugs of the tile body are pressed between two
halves of a hard or porous mold mounted in a hydraulic press. The
formed part is removed by first applying vacuum to the top half of
the mold to free the part from the bottom half, followed by forcing
air through the top half to free the top part. Excess material must
be removed from the part and additional finishing may be
needed.
Another process, called pressure glazing, has recently been
developed. This process combines glazing and shaping simultaneously
by pressing the glaze (in spray-dried powder form) directly in the
die filled with the tile body powder. Advantages include the
elimination of glazing lines, as well as the glazing waste material
(called sludge) that is produced with the conventional method.
Drying
5 Ceramic tile usually must be dried (at high relative humidity)
after forming, especially if a wet method is used. Drying, which
can take several days, removes the water at a slow enough rate to
prevent shrinkage cracks. Continuous or tunnel driers are used that
are heated using gas or oil, infrared lamps, or microwave energy.
Infrared drying is better suited for thin tile, whereas microwave
drying works better for thicker tile. Another method, impulse
drying, uses pulses of hot air flowing in the transverse direction
instead of continuously in the material flow direction.
Glazing
6 To prepare the glaze, similar methods are used as for the tile
body. After a batch formulation is calculated, the raw materials
are weighed, mixed and dry or wet milled. The milled glazes are
then applied using one of the many methods available. In
centrifugal glazing or discing, the glaze is fed through a rotating
disc that flings or throws the glaze onto the tile. In the
bell/waterfall method, a stream of glaze falls onto the tile as it
passes on a conveyor underneath. Sometimes, the glaze is simply
sprayed on. For multiple glaze applications, screen printing on,
under, or between tile that have been wet glazed is used. In this
process, glaze is forced through a screen by a rubber squeegee or
other device.
Dry glazing is also being used. This involves the application of
powders, crushed frits (glass materials), and granulated glazes
onto a wet-glazed tile surface. After firing, the glaze particles
melt into each other to produce a surface like granite.
国家: | India |
型号: | - |
离岸价格: | 获取最新报价 |
位置: | - |
最小订单价格: | - |
最小订单: | 100 Metric Ton |
包装细节: | - |
交货时间: | - |
供应能力: | - |
付款方式: | T/T |
產品組 : | - |