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Urethane Specialties
TMXDIŽ
(META) aliphatic isocyanate is a monomer
used primarily as an intermediate in the
manufacture of solvent-free,
polyurethane dispersions used in
water-based coatings, adhesives and
inks.
TMIŽ
(META) unsaturated aliphatic isocyanate
is a unique bifunctional monomer with a
reactive isocyanate (NCO) and vinyl bond
(CH3-C=CH2) used primarily in latex and
specialty polymer synthesis. TMI is used
in specialty products ranging from
surfactants to specialty plastics and
urethane foams.
Scroll down for further information
on these products.
TMXDI (META) Aliphatic Isocyanate
TMXDI is a tertiary aliphatic
diisocyanate with a high level of steric
hindrance The product is used primarily
to produce solvent-free, water-based
polyurethane dispersions that are
formulated into low VOC, light stable,
water-based coatings, adhesives and
inks. The value-added benefits of TMXDI
are as follows:
- Solvent-free manufacturing ease
due to low pre-polymer viscosity and
no side reactions
- Performance benefits:
a) Very low VOC 0.3 lb/gallon;
solvent free
b) Tough and flexible high
elongation with good tensile strength
c) Excellent adhesion to difficult
substrates (e.g., low surface energy
polymers, oily leather, etc.)
d) Ability to formulate adhesives with
low heat activation temperature and
good heat resistance without
crosslinking
e) Toxicity lung toxic but NOT a
pulmonary sensitizer; most TMXDI-based
polyurethane dispersions are
sanctioned under FDA 175.105
(adhesives for indirect food contact)
TMI (META) Unsaturated Aliphatic
Isocyanate
TMI is a unique bifunctional monomer
with a reactive isocyanate and vinyl (iso-propenyl)
bond used in latex and specialty polymer
synthesis.
- For self-crosslinking
latex the tertiary-NCO
group can be blocked with MEKO or
other blocking agents and
copolymerized into a hydroxyl or amine
functional latex. The NCO deblocks
with heat and crosslinks with OH or NH/NH2
groups; 10-20ēC lower deblocking
temperature can be a performance
benefit.
- For functionalized
latex the tertiary-NCO
group can be reacted with OH or NH
functional adducts and the vinyl
group co-polymerized into the latex
backbone to produce a rheology
modifier or polymerizable surfactant
toprovide customized latex
properties.Additional ideas and data
for TMI latex modification were
developed in a Cytec sponsored study
at Lehigh University(Emulsion Polymers
Institute) and are available upon
request.
Methyl Carbamate & meta-Diisopropenylbenzene
Other commercially available products
related to our Urethane Chemicals line
include Methyl Carbamate (MEC) and meta-Diisopropenylbenzene
(DIPEB), which are used in a variety of
specialty end-use applications.
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MEC structure |
DIPEB structure |
Technical Information
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Product |
Download |
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TMXDI (META) Aliphatic
Isocyanate Technical Data Sheet |
Download PDF |
TMXDI (META) Aliphatic
Diisocyanate
The Choice For Aqueous
Polyurethane Dispersions |
Download PDF |
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TMXDI (META) Aliphatic
Diisocyanate Dispersions for
Solvent-Free Adhesives |
Download PDF |
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TMXDI and CYDROTHANE for Inks |
Download PDF |
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Coatings and films with expanded
usability made from novel
solvent-free TMXDI PUDs |
Download PDF |
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TMI (META) Unsaturated Aliphatic
Isocyanate Technical Data Sheet |
Download PDF |
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Chemistry of TMI (META)
Unsaturated Aliphatic Isocyanate |
Download PDF |
Tertiary Isocyanate Products
Physical Properties and
Performance Benefits |
Download PDF |
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Blocked Tertiary Isocyanates |
Download PDF |
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DIPEB (META) Meta
Diisopropenybenzene Technical
Data Sheet |
Download PDF |
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Methyl Carbamate Technical Data
Sheet |
Download PDF |
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