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EZEBOND
TITANATE
COUPLING AGENT FORMULATIONS
Specifications & M.S.D.S.
► Description:
Ezebond Titanate
Coupling Agents are complex organo-inorganic compounds, which act as
bridges between organic polymers and inorganic fillers and pigments.
They provide an organic molecular layer around the filler surface, which
couples the polymer to the filler. Ezebond Titanate Coupling Agents play
a multi‑functional role including improvement of various mechanical
properties at higher filler loadings, reduction in viscosity and
improvement in dispersion and flow properties. They help in reducing
costs while simultaneously giving considerable benefits in processing
conditions.
Ezebond titanates can be used for a wide
range of filled polymer systems like: Polyvinyl Chloride (flexible and
rigid), Polypropylene, Polyethylene, Epoxy, Polyurethane, Polyester,
Polystyrene, and Nylon systems. Ezebond titanates are effective with
precipitated or micronised calcium carbonate, talc, clay, silica, red
mud, aluminium trihydrate, mica, wollastonite, calcium or aluminium
silicates, glass fibres, carbon black, titanium dioxide, zinc oxide,
barium sulphate, etc.
► Grades:
Two types of Ezebond
coupling agents are available:
1. Liquid
Grade (
M.S.D.S.
)
2. Powder
Grade *
(
M.S.D.S.
)
|
Grade # |
Type |
Container
Size |
Application |
|
|
|
|
|
|
EB 412 |
Liquid |
200 L steel
drum |
For coating of wet ground or precipitated Calcium Carbonate
for use in Rigid PVC systems |
|
|
|
EB 816 |
Liquid |
200 L steel
drum |
For Coating of dry ground fillers for use in PVC systems |
|
EB 927 |
Liquid |
200 L steel
drum |
For Coating of dry ground fillers for use in PP & PE
systems |
|
EB 412A |
Liquid |
200 L steel
drum |
For use in flexible PVC & Plastisol systems with CaCO3 |
|
|
|
|
|
|
EB 1019A |
Powder |
Fiber drum |
For use in Rigid PVC, PP, PE, PU, PS, Epoxy |
|
EB 1019B |
Powder |
Fiber drum |
For use in Nylon, Acrylic, Alkyd, Mica & glass filled
systems |
*
Powder grades Ezebond are manufactured using in-house developed,
proprietary technology. Special grades of liquid titanates are
uniformly dispersed over inorganic filler composition (trade secret).
► Advantages:
Incorporation of Ezebond in filled polymer
systems can offer many advantages. Typical improvements are listed
below:
1.
Increases
physical properties like tensile and impact strength and allows higher
filler loadings
2.
Improves
dispersion of fillers and pigments into polymer systems. End products
with better gloss and homogeneity are obtained
3.
Reduces melt
viscosity and improves flow properties. Production is increased
considerably
4.
Reduces energy
consumption
5.
Imparts
hydrophobicity
6.
Acts as an
adhesion promoter
7.
Promotes
catalysis process in many polymer systems
8.
Pigments
treated with suitable titanates disperse more rapidly and display better
colouring strength
9. Pre-coating
of blowing agents like AZDC with a suitable titanate ensures increased
evolution of nitrogen and helps control cell structure of foamed PVC
products
► Suggested Dosage:
How much Ezebond to use? The exact dosage of
Ezebond titanate required to obtain optimum performance depends on the
processing equipment used as well as on the polymer‑filler system.
Initial trials should be done with the dosages given below in Table 1.
Depending on the results obtained, the dosage should be increased or
decreased till the optimum dosage is arrived at.
Table: 1
|
Application
Ref. # |
Ezebond
Grade |
Suggested
Dosage |
Applications |
|
|
|
|
|
|
A1 |
EB 412 |
1% on the
weight of Calcium Carbonate |
Titanate
Coated CaCO3 |
|
|
|
|
|
|
A2 |
EB 816
|
0.5% to
0.75% on the weight of Polymer
|
Filled PVC |
|
A2 |
EB 927
|
Filled PP,
PE |
|
A3 |
EB 412A |
Filled PVC |
|
|
|
|
|
|
A4 |
EB 1019A
|
1% to 2% on
the weight of Polymer |
Thermoplasts |
Filled PP,
HDPE, PVC, PS, Eng. Plastics |
|
A4 |
EB 1019B
|
Thermosets |
Filled
Polyurethane, Epoxy, Polyester |
► Applications:
A1
How to coat Wet inorganic fillers
with Ezebond
· Ezebond
412
EB 412 is either
emulsified in water using 0.5% to 1% of non-ionic emulsifier or
mechanically dispersed in water using a high-speed mixer. The
emulsion/dispersion is used to coat wet ground/precipitated calcium
carbonate. The coated filler slurry is filtered, dried and used
typically in filled rigid PVC systems. (Example: PVC pipes and
sections)
A2
How to coat
Dry inorganic fillers with
Ezebond:
· Ezebond
816
· Ezebond
927
Liquid titanate
needs to be properly coated on the filler surface to ensure good
performance. Coating should only be done on untreated
fillers/extenders. Coated or activated fillers should not be used.
1. Ezebond is first diluted with equal
weight of low boiling alcohol/ketone solvent.
2. The untreated
filler is charged in a high-speed mixer. The mixer is run at low speed
for a couple of
minutes to
preheat the filler and remove absorbed surface moisture.
3. The diluted
titanate solution is added slowly within a minute by spraying or
pouring.
4. The mixing is
then increased to its maximum and mixing is continued for about 12
minutes until
uniform
coating is achieved.
√
Filler coated with EB 927 can be used directly for PP and PE
applications.
√ Filler coated with EB 816 or EB 412
can be used directly for rigid PVC applications.
A3
How to use of EB 412A in Flexible
PVC/Plastisols Systems:
Ezebond EB 412A is
mixed with a small quantity of plasticizer and sprayed on the resin and
untreated filler mix in a high-speed mixer or blender. After thorough
mixing is achieved, other ingredients like stabilizers, pigments,
lubricants, balance plasticizer, etc are added in the required sequence.
Applications:
Film,
sheeting, flooring, plastisols for slush moulding, casting gloves,
tubing, coated fabrics etc.
A4 How to use
of Powder Ezebond in Polymer Systems:
-
Ezebond 1019 A
-
Ezebond 1019 B
Thermoplasts:
(PP, HDPE, PVC)
1)
The quantity of Ezebond 1019 A required is first calculated using
Table 1
2)
Mix Ezebond 1019 A with the filler in a high-speed mixer for
12-15 minutes. The filler used should be of untreated variety i.e.
without any surface coating such as Stearic, Stearate etc.
3)
Add the resin to the above mixture and blend thoroughly.
4)
Add pigments and other additives as required and blend
thoroughly. Extrude the blend using a mixing type extruder such as a
twin screw extruder
Thermosets:
(PU, Epoxy,
Polyester):
Ezebond 1019 B is thoroughly mixed with the resin in which fillers are
to be added. Fillers, pigments, additives, etc are then added and
dispersed as per usual
practice.
Other Thermoplastics:
(PS, Eng. Plastics)
The procedure is similar to that followed for polyolefins.
► Performance Data:
A few examples based
on customer feedback:
1. In
40% CaCO3 filled flexible PVC sheeting, use of EB412A reduced
gelling time by 30% and gelling torque by 25%. Tensile strength
increased by 20%.
2. Impact
strength of HDPE filled with 30% CaCO3 coated with EB927
increased by 10% over that of the virgin HDPE
3. Processing
of CaCO3 filled PP film compounds with over 100% filler
became very easy when EB 101 9A was used. Surface finish was greatly
improved.
4. Use
of titanate coated CaCO3 instead of stearic-coated CaCO3 in
rigid PVC formulations increased tensile strength by 20% and impact
strength by 10%. Gelling time was reduced by 33%.
All
Ezebond formulations are subject to strict quality control, innovations
and improvements.
The
above information is given on the basis of our best knowledge and
information and is for your guidance only.
Specifications, however, are
subject to change and no guarantee is given or implied.
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