MAH
Grafted PE
(OPTIM® Modified Polyethylene)
OPTIM® E-142
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Applications:
OPTIM® E-142 and E-143 are
suitable for making plain and glass filled nylon alloys and as coextrudable
adhesive between nylon and LDPE and other similar polymers. It may
also be used as compatibiliser for a range of polar and non-polar
polymer mixtures. These are particularly designed for in-situ nylon
alloying in injection moulding machine. They may also be used for
lamination on Aluminium fol, cable wrap. Also used as coupling agent
for wood-PE composites. Different MFI of the three grades allows
choosing the right material suitable from processing point of view.
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| OPTIM® E-126 |
Applications:
OPTIM® E-126 is suitable for use in nylon blending. These
resins may also be used as coextrudable adhesive between Nylon and
LDPE or other similar polymers. Nylon scrap can be upgraded and made
use of in injection moulding by using these OPTIM® grades.
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OPTIM® E-117
OPTIM® E-119
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Applications:
These OPTIM® grades are used as coupling agents for non-halogen
flame retardant wire & cable compounds containing fillers such
as Aluminium Tri Hydrate (ATH) or Magnesium Hydroxide (Mg(OH)2). It
allows higher loading of fillers in PE or PE/EVA blends. Typically
2-4% (or less) of OPTIM® is recommended depending
upon the filler content.OPTIM® can also be used for
lamination on aluminium foil and cable wrap and similar applications.
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OPTIM® E-156
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Applications:
This OPTIM® grade is used as compatibilizing agents for fillers and reinforcements
with HDPE Compounds. It also acts as wetting and dispersing aids for
colours and pigments. OPTIM® E-156 is based on Homopolymer HDPE.
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OPTIM® E-170
OPTIM® E-177 |
Applications:
OPTIM® E-170 and E-177 are ideal for in-situ toughening of Nylon during
injection moulding where preheated or inline hopper dried nylon is
being used. Its high softening point ensures that no agglomeration
will happen in the feed hopper.
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OPTIM® E-131
OPTIM® E-137
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Applications:
These product are designed to produce a super tough nylon alloy based on Nylon 6
or Nylon 6,6. The resultant alloy has higher mechanical properties
than that produced using other E series grades. Mineral and glass
filled nylons with enhanced impact strength may also be produced using
this. Best results are obtained when compounding is done in high shear
machines such as twin screw extruders.
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GMA
Grafted PE
(OPTIM® Modified Polyethylenes)
OPTIM® GE-344 |
Applications:
This resin has both epoxy and acrylic functionalities. This is
used as impact modifier for polyesters such as PET & PBT and
also Polycarbonate (PC). The epoxide group during compounding reacts
with Hydroxyl and carboxylic end groups of polyesters producing an
alloy of PE and PET having very good mechanical properties.
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MAH
Grafted PP
(OPTIM® Modified Polypropylene)
OPTIM® P-406
OPTIM® P-408
OPTIM® P-425
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Applications:
These OPTIM® grades are used as coupling agents for fillers
and reinforcement such as talc, mica and glass fibers in PP compounds.
They also act as wetting and dispersing aids for colours and pigments.
The polar functionality in these materials facilitates printability,
paintability and receptivity to adhesives in the case of extruded
and moulded products. Also used as compatibilisers for Nylon-PP
blends.
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MAH
Grafted EVA
(OPTIM® Modified Ethyl Vinyl Acetate)
OPTIM® B-520
OPTIM® B-523
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Applications:
OPTIM® are suitable for film application as heat seal layer
or as a tie layer between non compatible film layers. These can also
be used for extrusion coating on plastics films or aluminium foil
in packaging and cable wrap applications. Powdered OPTIM® imparts good adhesion to textiles in interlining applications. It
also finds use as compatibiliser for commingled plastics waste recycling.
In OPTIM® B grades grafting of the base copolymers is so
controlled as to give higher viscosity of the product (nylon alloy).
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MAH
Grafted EPDM
(OPTIM® Modified EPDM)
OPTIM® P-635
OPTIM® P-613 |
Applications:
This product is designed to produce a super tough nylon alloy based
on Nylon 6 or Nylon 6,6. Such alloys have good impact strength even
at sub-zero conditions. Mineral and glass filled nylons with enhanced
impact strength can also be produced using this material. |
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Grafted Polymers
