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High Solids Polyurethane
Coatings
Traditional solventborne
polyurethane coatings are typically formulated at a solid level
of 30-40 percent, which would be equivalent to the volatile organic
compounds (VOC) level of 5 lb/gal or above. With more stringent
emission level regulations, demand for low VOC coatings and thus
higher solids, has increased. This demand has led to the development
of lower viscosity resins, both in the polyol and polyisocyanate
components. Bayer MaterialScience supplies high solids polyol
components, such as polyesters, polyacrylates and polyaspartic
esters, as well as low viscosity polyisocyanates for the formulation
of high solids coatings.
You
can find more information about polyurethane coating chemistry
in the Bayer publication, “The Chemistry of Polyurethane Coatings”
by clicking
here.
Additionally,
learn more about waterborne coatings by browsing and downloading
our collection of technical
papers.
One appproach to the
market's need for higher solids coatings is a new class of co-reactants,
namely polyamino co-reactants. Bayer MaterialScience markets these
co-reactants under the Desmophen®
NH tradename.
In the past, the extremely high reactivity of primary amines has
prevented their use as a viable co-reactant in coating applications.
However, the significantly reduced reactivity of hindered or blocked
amines, such as polyaspartic esters and aldimines (see Table 1
for structures), has allowed for a whole new family of co-reactants
available to polyurethane formulators. The coatings based on these
polyamino co-reactants can be formulated with solid levels in
excess of 70 percent, resulting in a system with VOC levels at
2 lbs/gal or less. Table 1 also lists the advantages of polyaspartic
esters and aldimines. The availability of various polyaspartic
esters with vastly different reactivities and viscosity make it
a more versatile co-reactant for formulators (Table 2). One can
blend two or more polyaspartic esters to achieve a wide range
of application viscosity and potlife. One significant characteristic
of the coatings based on polyaspartic esters is that they offer
extremely high hardness, balanced with a reasonable flexibility.
In addition, both aldimines and polyaspartic esters are compatible
with most traditional polyester or polyacrylic resins. One can
easily blend polyaspartic esters with polyesters or polyacrylics
to achieve the desired solid level/VOC, hardness, viscosity and
cost.
(table
1 to be corrected by Web designer)
Table
2. Characteristics of Polyaspartic Esters
PAC Eq.
Wt. Viscosity
(cps) Gel
Time
| Polyaspartic Ester |
Equiv. Weight |
Viscosity
(CPS) |
Gel Time* |
|
277 |
1200 |
2-3 hr. |
|
291 |
1500 |
> 24 hr. |
|
229 |
150 |
< 5 min. |
*
Approximate gel time when mixed with an aliphatic polyisocyanate
adduct, such as Desmodur® N-3300.
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