 |
For
interior walls |
|
For
exterior walls |
|
Reinforcing
fabric |
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| |
 |
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| |
Glass
mesh and finished compounds made of glass mesh
and fibre tissues are increasingly being used
to improve handling characteristics and surface
structure in materials in sheets and in board
form.
The basis consists of fibre glass mesh, optionally
with anti-skid, alkali-resistant finishing or
special additional finishing to provide fire-retardant
properties. The special feature of Vitrulan compounds
lies in the solvent-free compount of the mesh
with the widest variety of fibre tissues without
additional application of adhesive. |
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| Our customers... |
 |
...reinforce
or stabilise their slabs through the well-balanced
mesh structure with uniform force absorption, high
diagonal stability and resistance to crack formation,
thereby optimising handling. |
|
...with
this compound, the customer obtains a clean, sealed
surface that can be processed further, together
with the mechanical characteristics of the fabric. |
|
...benefit
from solvent-free temperature-resistant joints between
mesh/fibre tissues without using additional adhesive,
to optimize the fire load of slabs, and with the
option of non-flammable versions according to the
construction material classification. |
|
Technical
characteristics and delivery information relating to
the
fabric/glass
tissue + glass fabric compounds
|
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|
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Internal
mesh width
of the fabric |
(±
10 %) |
|
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Weight
per sqm
(DIN 53 854) |
(±
10 %) |
|
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Glass
mat fibre
(DIN 53 854) |
(±
10 %) |
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Maximum
tensile load
(DIN 53857 T1) |
|
|
>
800 N/5 cm |
>
800 N/5 cm |
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> 1000 N/5 cm |
>
1000 N/5 cm |
|
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| Maximum
tensile strength (DIN 53857
T1) |
|
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|
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|
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| Residual
strength as per EOTA-Testing method
> 50 % |
|
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| The details contained
in this Technical Information Sheet reflects our
level of knowledge at the time of puplication. We
expressly reserve the right to make changes to keep
step with technological advances. |
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