Overcoming UV/LED/EB-Curable Inks Challenges

Achieve High Curing and
optimum low-energy curing response

With Sartomer Multifunctional Acrylate Monomers, you get:

Tunable physical properties with backbone variety ranging from low polarity for traditional commercial printing to more flexible material for packaging printing.

Better EFFICIENCY under LED thanks to high functionality, bringing denser reactive moieties or ethoxylated materials able to better overcome surface cure oxygen inhibition.

SARTOMER MULTIFUNCTIONAL ACRYLATE MONOMERS

Click on products below to visit web pages:

Multifunctional acrylate monomers boosting the reactivity of your systems

SR399

DI-PENTAERYTHRITOL
PENTAACRYLATE
(DIPEPA)
  • 13 Pa.s
  • 90oC
  • 525 g/ mol
  • 39,9 mN/ m
High Crosslinking

SR355

DI-TRIMETHYLOPROPANE
TETRAACRYLATE
(DITMPTA)
  • 800 mPa.s
  • 100oC
  • 466 g/ mol
  • 36,0 mN/ m
Flexibility / Crosslinking Balance

SR494

PROPOXYLATED/ETHOXYLATED
PENTAERYTHRITOAL
TETRAACRYLATE (PPTTA)
  • 150 mPa.s
  • 70oC
  • 528 g/ mol
  • 37,9 mN/ m
Flexibility / Hardness Balance

SR368

TRIS HYDROXY ETHYL
ISOCYANURATE TRIACRYLATE
(THEICTA)
  • -
  • 270oC
  • 423 g/ mol
  • -
Heat Resistance

Ethoxylated trifunctional acrylate monomers reaching an optimal flexibility/reactivity balance

SR454

ETHOXYLATED TRIMETHYLOLPROPANE TRIACRYLATE (3EOTMPTA)
  • 165 mPa.s
  • 100oC
  • 428 g/ mol
  • 39,6 mN/ m
Reduced Viscosity

SR499

ETHOXYLATED TRIMETHYLOPROPANE TRIACRYLATE (6EOTMPTA)
  • 100 mPa.s
  • 30oC
  • 560 g/ mol
  • 38,9 mN/ m
Flexibility / Hydrophilic Balance

SR502EU

ETHOXYLATED TRIMETHYLOPROPANE TRIACRYLATE (9EOTMPTA)
  • 130 mPa.s
  • 0oC
  • 692 g/ mol
  • 40,2 mN/ m
High Flexibility

SR9035

ETHOXYLATED TRIMETHYLOLPROPANE TRIACRYLATE (15EOTMPTA)
  • 180 mPa.s
  • -30oC
  • 956 g/ mol
  • 41,5 mN/ m
Water Solubility

These product codes are available in EMEA. Contact your local representative for regional product equivalents.

ACHIEVe A WIDE VARIETY OF PHYSICAL PROPERTIES
FOR LOW-VISCOSITY APPLICATIONS

With Sartomer Difunctional Acrylate Monomers, you get:

ADAPTABLE BACKBONE CHEMISTRIES between aliphatic and cyclic type structures to build systems resistant to various external stress

GOOD BALANCE between low shrinkage and optimized wetability thereby enhancing adhesion on a broad substrate range

SARTOMER DIFUNCTIONAL ACRYLATE MONOMERS

Click on products below to visit web pages:

SR833S

TRICYCLODECANEDIMETHANOL
DIACRYLATE
(TCDDA)
  • 140 mPa.s
  • 185oC
  • 304 g/ mol
  • 36,0 mN/ m
High glass transition temperature

SR606A

ESTERDIOL
DIACRYLATE
(EDDA)
  • 25 mPa.s
  • 86oC
  • 312 g/ mol
  • 31,8 mN/ m
Weatherability

Sterically hindered difunctional acrylate monomers bring extra reactivity and blocking properties with lower viscosities

Reaching superior adhesion with low-viscosity difunctional acrylate monomers

SR238

HEXANEDIOL
DIACRYLATE
(HDDA)
  • 6 mPa.s
  • 45oC
  • 266 g/ mol
  • 34,8 mN/ m
Multipurpose reactive diluent

SR341

METHYL
PENTANEDIOL DIACRYLATE
(MPDA)
  • 6 mPa.s
  • 50oC
  • 226 g/ mol
  • 32,0 mN/ m
Adhesion on plastics

SR595

DECANEDIOL
DIACRYLATE
(DDDA)
  • 10 mPa.s
  • 54oC
  • 282 g/ mol
  • 34,4 mN/ m
High Tg/Flexibility balance

SR561

ETHOXYLATED
HEXANEDIOL
DIACRYLATE (5EOHDDA)
  • 40 mPa.s
  • -40oC
  • 446 g/ mol
  • 37,4 mN/ m
Amphiphilic behaviour

These product codes are available in EMEA. Contact your local representative for regional product equivalents.

Achieve Digital Printing Needs and
Industrial Application Challenges

With Sartomer Monofunctional Acrylate Monomers, you get:

Wide backbone chemistries ensuring optimized balance between surface tension, wettability and shrinkage for maximized adhesion.

Low-viscosity materials allowing formulators to build systems compatible with inkjet printheads delivering smaller and smaller drop size for better print quality.

SARTOMER MONOFUNCTIONAL ACRYLATE MONOMERS

Click on products below to visit web pages:

Adhesion on difficult substrates

SR256

ETHOXYETHOXYETHYL
ACRYLATE
(EOEOEA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 3 mPa.s
  • -55oC
  • 188 g/ mol
  • 32,4 mN/ m

SR484

OCTYL DECYL
ACRYLATE
(ODA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 800 mPa.s
  • 100oC
  • 466 g/ mol
  • 36,0 mN/ m

SR395

PROPOXYLATED/ETHOXYLATED
PENTAERYTHRITOAL
TETRAACRYLATE (PPTTA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 3 mPa.s
  • -60oC
  • 212 g/ mol
  • 28,6 mN/ m

SR335

ISODECYL
ACRYLATE
(IDA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 4 mPa.s
  • -30oC
  • 240 g/ mol
  • 30,3 mN/m

SR489

ETHOXYLATED TRIMETHYLOLPROPANE TRIACRYLATE (3EOTMPTA)
  • H315 (Skin Corr.2)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H411 (Aquatic Chronic 2)
  • 5 mPa.s
  • -55oC
  • 255 g/ mol
  • 28,9 mN/ m

High Tg monofunctional monomers with superior adhesion properties

SR420

TRIMETHYL CYCLOHEX
ACRYLATE (TMCHA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 3 mPa.s
  • 25oC
  • 195 g/ mol
  • 27,3 mN/ m

SR217

TERTIOBUTYL CYCLOHEXYL
ACRYLATE (TBCHA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 9 mPa.s
  • 40oC
  • 210 g/ mol
  • 28,2 mN/ m

SR506E

ISOBORNYL
ACRYLATE (IBOA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 8 mPa.s
  • 95oC
  • 208 g/ mol
  • 31,7 mN/ m

SR789

TRICYCLODECANEMETHANOL
ACRYLATE (TCDA)
  • H315 (Skin Corr.2)
  • H317 (Skin Sens. 1)
  • H319 (Eye Dam. 2)
  • H335 (STOT SE 3)
  • H400 (Aquatic Acute 1)
  • H411 (Aquatic Chronic 2)
  • 17 mPa.s
  • 35oC
  • 220 g/ mol
  • 31,6 mN/ m
Challenge #3