Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors

ETERNAJET®

Waterborne polycarbonate-based polyurethane dispersions

Maximizing the performance and the durability of your polyurethanes over time

ETERNAJET® series are waterborne aliphatic polyurethane dispersions based on ETERNACOLL® polycarbonate diols designed to formulate high-performing inks for textile printing with maximized durability over time.

Main properties, benefits and applications

Maximizing polyurethanes performance

ETERNAJET® PUD are aimed to be used in high performance polyurethane products to reach the technical requirements you are looking for.

Retaining the designed properties under extreme conditions

ETERNAJET® PUD show maximized durability over benchmark polyurethane dispersions.

Excellent durability

ETERNAJET® show an excellent adhesion to textile after their thermal reactivation, improving their mechanical performance and resistance.

Outstanding dispersion & applications properties

ETERNAJET® series provide inks with an excellent printing behavior of stability, open times, filterability and compatibility with standard additives, as well as outstanding light, rub and washing fastness.

CONTACT WITH PERFORMANCE CHEMICALS

Select your TDS

AIRBLOWN
EXTRUSION

Select your TDS

Select your TDS

Select your TDS

AIRBLOWN
EXTRUSION

Select your TDS

AIRBLOWN
EXTRUSION

Select your TDS

MONOFILAMENT

Select your TDS

Select your TDS

Select your TDS

Select your TDS

Select your TDS

AIRBLOWN
MONOFILAMENT

Select your TDS

EXTRUSION

Select your TDS

Select your TDS

Select your TDS

Select your TDS

AIRBLOWN
MONOFILAMENT

Select your TDS

EXTRUSION

Select your TDS

Select your TDS

AIRBLOWN
MONOFILAMENT

Select your TDS

EXTRUSION

Request form

The data is not available online. Please contact through this form so that wen can answer as soon as possible. Thank you!

Select your TDS

X
Your browser is out-of-date!

Update your browser to view this website correctly. Update my browser now

×