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Dyson
Thermal Technologies Meets Challenges With
Revolutionary Kiln Furniture
As energy
prices soar and with instability in supply
meaning that a high tariff structure is more
than likely to prove the reality – in the
short-term at least – ceramic manufacturers
will be paying even more attention than they
usually do to any element of production that
can be characterised as an energy sink.
Obviously, the area in and around the kiln
will come under close scrutiny.
Dyson
Thermal Technologies, the company within
Dyson Group responsible for developing,
manufacturing and marketing world class
ceramic kiln furniture, saw the early signs
which have led to these concerns in the
industry and straight away began to address
the technical hurdles that needed to be
straddled.
One major
result of Dyson TT’s developmental approach
has been the introduction of the Dylite
range of kiln furniture products, well
received by major sector customers in the
industry and fast becoming an automatic
choice for certain key areas of ceramic
firing.
In all,
group technologists worked for a period of
five years to achieve this revolutionary
cordierite material, succeeding when it was
launched on to the market to present the
industry with something that is around only
half the weight of standard cordierite.
Aside from any other advantages then, this
immediately delivered to users main
refractory systems at just above 50% of
their previous weight – leading to
substantially reduced energy consumption,
massive fuel savings and increased ability
to play a part in faster firing cycles, with
attendant increase in kiln speed and
throughput.
These
facts alone would make Dylite a natural
choice for some of the major ceramic
sectors. There is, however, more. With
Dylite kiln furniture systems, thermal shock
resistance is improved over standard
cordierite, leading to longer refractory
life, while its lower specific heat capacity
allows for quicker heating and cooling.
This gives manufacturers a golden triangle
of reduced cost, high effectiveness and
enhanced flexibility.
The Dylite
material also exhibits very high apparent
porosity, around 45%, which means that when
batt wash is being used it is much more
easily absorbed, achieves good adherence and
results in a much improved protective
coating. As with all of Dyson TT kiln
furniture, Dylite is suitable for use up to
1300°C under compression or in non
load-bearing applications. It is better
used in situations where bending strength is
not critical and it is not recommended for
load-bearing batts where they are intended
for use above 1000°C. Dylite’s MoR at
1250°C is 7, as opposed to an MoR of 10 for
the more general purpose Dycor material.
Dylite is an alumina/silica/magnesia system
and the thermal expansion from 20°C to
1000°C is just 0.25%. The company’s special
manufacturing process for this kiln
furniture range is what makes the difference
and gives the product its lightweight, low
density character. It is being successfully
used in the UK and abroad in both primary
and secondary kiln furniture applications.
Some users have made the decision to switch
to Dylite in a big way and the company was
pleased to be asked to design and install a
complete flexible system at Roy Kirkham & Co
Ltd in Stoke-on-Trent,
one of leading manufacturers of quality
English fine bone china products.
All the components being used at the
Tunstall tableware plant have been
manufactured in Dylite. Roy Kirkham’s ware
is manufactured to the highest standards,
using unleaded glaze and a blend of fine
china clays and feldspars to give a bright,
classical, translucent finish. Consistent
high quality is the watchword for all of the
company’s individually designed patterns and
the decorating kiln – firing up to around
850°C – has been performing well with the
new, adjustable placing system over a number
years.
Director Steve Kirkham commented: “Using
Dylite has substantially reduced our energy
costs as the material is half the weight of
normal kiln furniture and has also
benefitted us because we can fire our kilns
faster than with normal cordierite
materials”.
The experience that Dyson TT has gained from
manufacturing Dylite has enabled the company
to run further development programmes and it
now also offers another technically superior
product in the same family of materials.
Hybrid Dylite, which can readily be used at
temperatures up to 1300°C, is often seen as
a compromise between the very low density of
Dylite and the performance of Dycor.
Porosity is still high, at 35%, but this
range of kiln furniture is around 50% more
dense than Dylite and exhibits a better
bending resistance at elevated
temperatures. It has very low rates of
thermal expansion and offers products with
excellent thermal shock resistance. It is
still fully 20% lighter than standard
cordierite kiln furniture products and so
while strong, still provides fuel cost
savings and can be used in rapid firing
cycles.
For further information on the entire range,
please contact:
Phil Green – Technical Sales Manager
Dyson Thermal Technologies-Kiln Furniture
Shelton New Road
Hartshill
Stoke-on-Trent
ST4 6EP
England
Tel: +44 (0)1782 711511
Fax: +44 (0)1782 717078
E-mail:
kfenq@dysontt.com
Website:
www.dysontt.com
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