PRINTING INK
ADDITIVES
2–3
PRINTING INK ADDITIVES
CONTENT
WATER BASED SYSTEMS
4–15
Defoamers
Dispersing Agents
Rheology Modifiers
Wetting & Leveling Agents
Micronized & Coated Waxes
Surface-Modified Waxes
Waterbased Wax Dispersions and Emulsions
4–5
6–7
8–9
10–11
12–13
12–13
14–15
SOLVENT BASED SYSTEMS
16–21
Defoamers, Dispersing, Wetting & Leveling Agents
Micronized & Coated Waxes
Wax Dispersions
16–17
18–19
20–21
OIL BASED DISPERSIONS
20–21
RADIATION CURED SYSTEMS & SPECIAL ADDITIVES 22–25
Micronized & Coated Waxes
Defoamers & Dispersing Agents
Special Additives
22–23
24–25
24–25
NOTES
26–27
Printing Ink
Additives
MÜNZING is a highly regarded, privately owned specialty
d­efoamers, dispersants, rheology modifiers, emulsifiers­,
additive company with headquarters in Abstatt, G
­ ermany.
wetting and leveling agents, micronized and coated
We have a presence in over 40 countries and are a tech­
waxes as well as wax dispersions and emulsions, have
nology driven organization with an extensive staff of
achieved worldwide recognition for their performance,
highly experienced R&D and technical service person­
quality and technical innovation.
nel in Europe, the Americas and Asia. Our manufacturing
The technical mission of MÜNZING is to solve ink and
plants in Germany, USA and China have broad synthesis
coating formulation problems. We offer state-of-the-art
and formulation capabilities in order to best serve our
technical service testing to all customers, regardless of
global customer base.
their company size. Based on our broad range of addi­
We are committed to creating value and improving our
tive chemistries, MÜNZING’s technical service work pro­
customers’ formulations with our complete range of
vides our customers the optimum solutions with re­
specialty additives. These additives, which include
spect to both technical performance and value.
Printing inks are part of our daily life. They are used for
means of information or decorative purpose in print
media, catalogs and brochures, on packaging, textiles
and articles of daily use. The major application processes
are flexographic, gravure, offset and screen printing.
Depending on the application printing inks have to
meet many different requirements. MÜNZING has a long
lasting expertise in printing inks and offers a broad
portfolio of additives to the printing ink manufacturers.
Our Application Technology Center is willing to support
you during the development of products , which provide
your customers with best possible solutions.
4–5
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Defoamers
Surface active agents (surfac­tants) especially emulsifi­
When selecting a suitable defoamer, special attention
ers, wetting and dispersing agents are used to emulsify
has to be paid to the balance between defoaming
and stabilize hydrophobic substances e.g. binder parti­
­efficiency and compatibility with the printing ink. Our
cles, pigments and fillers in water based printing inks.
broad range of defoamers and deaerators based on dif­
These surfactants tend to create foam by stabilizing
ferent chemical technologies enables us to offer you
incorporated air in aqueous systems, that can lead to
the ­optimal defoamer for each type and application of
problems during the production as well as the applica­
your water based printing inks.
tion of w
­ ater based printing inks.
DEFOAMERS
Product
Type
AGITAN 105
poa, e
easy
AGITAN 109
veg, poa, e
fair
AGITAN 120
poa,oms,e
fair
AGITAN 155
oms,e
easy
AGITAN 156
poa,oms,e
easy
oms,e
easy
AGITAN 282
m
easy
AGITAN 299
poa
easy
AGITAN 350
poa
hard
AGITAN 351
poa
hard
AGITAN 650
wo
easy
AGITAN 731
oms, poa
hard
AGITAN 760
oms, poa
hard
AGITAN 761
oms
hard
AGITAN 766
oms, poa
fair
AGITAN 771
oms, poa
fair
AGITAN E 256
oms,e
easy
DEE FO PI-12
3D, e
easy
DEE FO PI-35
3D, e
fair
DEE FO PI-40
3D, e
easy
DEE FO PI-75
3D, oms, e
easy
AGITAN 158
New
e
= Aqueous emulsion
poa = Polyoxalkylene technology
fsi = Few silicone
Mineral oil Silicone free
free
m = Mineral oil
3D = 3D polysiloxane
APE free
Incorporation Flexographic
and gravure
inks
wo = White oil
oms = Organic modified polysiloxane
Corrugated
board &
porous paper
hydrophobic particle
Water Based Systems
surfactant molecules
Additional Technical Information on www.munzing.com
Defoamer Technologies
Defoamer Application Tables
Defoamer Recommendations for Binders
Figure | Foam bubble with surfactant double layer
Coated
paper &
packaging
Film & foil Metallic inks
Applicable
Screen
printing inks
Recommended
Ink Jet
Overprint
varnishes
Highly recommended
Press side
Fountain
solution
Pigment
grinding
6–7
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Dispersing Agents
For the dispersion of pigments, fillers as well as functional­ In addition to the following product overview including
additives e.g. transparent inorganic pigments (iron
recom­
mendations for various applications, there are
oxide­, titanium dioxide) and matting agents (silica) in
also guide formulations for many pigments available.
water based printing inks we offer a broad range of high
Furthermore we are ­offering you on request to prepare
quality dispersing agents.
dispersant recommendations for specific pigments.
Additional Technical Information on www.munzing.com
Dispersing Technologies
Dispersant Recommendations
Guide Formulations
Technical News No. 3
DISPERSING AGENTS
Product
Type
Charge
Active
­content
Solvent
%
EDAPLAN 395
High molecular copolymer
anionic
30
Water
EDAPLAN 396
High molecular copolymer
anionic
35
Water
EDAPLAN 397
Polyglycol esters
nonionic
100
–
EDAPLAN 470
Acrylic based polymer
anionic
50
Butyldiglycol
EDAPLAN 472
Acrylic based polymer
anionic
50
Butyldiglycol
EDAPLAN 480
Acrylic based polymer
anionic
85
Water
EDAPLAN 482
Acrylic based polymer
anionic
85
Water
EDAPLAN 490
High molecular copolymer
nonionic
40
Water
EDAPLAN 492
High molecular copolymer
nonionic
35
Water
EDAPLAN 494
High molecular copolymer
nonionic
50
Water
EDAPLAN 516
Acrylic based polymer
anionic
20
Water
METOLAT 390
Fatty derivative copolymer
anionic
55
Water
METOLAT 392
Olefinic polymer
anionic
45
Water
METOLAT 394
Olefinic polymer
anionic
55
Water
METOLAT 514
Acrylic based polymer
anionic
34
Water
APE free
Water Based Systems
Inorganic
pigments
Organic
pigments
Applicable
Carbon blacks
Recommended
Transparent
inorganic
­pigments
Fillers
Highly recommended
Matting
agents
(silica)
Laked
azo pigments
Binder
containing
grinds
8–9
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Rheology Modifiers
For the optimal application of printing inks it is neces­
In addition to the following product overview including
sary­ to adjust its rheology profile with the help of rheo­
recommendations for applications, our application
logy modifiers. This can be mana­ged by using associa­
technology team is at your disposal to identify the best
tive thickeners based on polyurethanes. Polyurethane
rheo­logy modifier or combination of thickeners for your
thickeners can be used solely or in combination with
speci­fic formulations through lab tests.
each other as well as with other types of thickeners (e.g.
polyacrylates or c­ ellulose ethers).
RHEOLOGY MODIFIERS
Product
Rheology profile
Type
Active ­content
Solvent
%
TAFIGEL PUR 40
pseudoplastic
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 41
pseudoplastic
PUR
20
Water
TAFIGEL PUR 44
pseudoplastic
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 45
newtonian
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 48
pseudoplastic
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 50
pseudoplastic
PUR
21
Water
TAFIGEL PUR 52
pseudoplastic
PUR
20
Water
pseudoplastic
PUR
20
Water
TAFIGEL PUR 60
strong pseudoplastic
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 61
strong pseudoplastic
PUR
25
Water
TAFIGEL PUR 64
strong pseudoplastic
PUR
40
Water / Butyltriglycol
TAFIGEL PUR 65
strong pseudoplastic
PUR
20
Water / Butyltriglycol
TAFIGEL PUR 80
newtonian
PUR
20
Water
newtonian
PUR
20
Water
TAFIGEL PUR 85
newtonian
PUR
25
Water
TAFIGEL AP 10
system dependent
AP
31
Water
TAFIGEL AP 15
system dependent
AP
29
Water
TAFIGEL AP 16
system dependent
AP
29
Water
TAFIGEL PUR 54
TAFIGEL PUR 82
New
New
PUR = Polyurethane (nonionic)
AP = Anionic copolymer emulsion
100
1000
10000 S -1
Additional Technical Information on www.munzing.com
Rheology Modifiers
Technical News No. 4
Figure | Rheology profiles of TAFIGEL ® PUR thickeners
Organo tin free
APE free
Flexographic &
gravure inks
Screen
inks
< 0,1 %
< 0,05 %
Applicable
Recommended
Highly recommended
Overprint ­varnishes
Pigment
grinding
Water Based Systems
PUR 60, PUR 61, PUR 64, PUR 65
PUR 40, PUR 41, PUR 44, PUR 48, PUR 50,
PUR 52, PUR 54
PUR 45, PUR 80, PUR 82, PUR 85
10–11
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Wetting and Leveling Agents
Wetting and leveling agents are used in water based
The following table contains some important informa­
printing inks to improve substrate wetting or leveling,
tion on a selection of our wetting and leveling agents for
to enhance gloss or to prevent cratering. They can influ­
water based printing inks. Our application techno­logy
ence the properties of printing inks in different ways.
team would be glad to support you through lab tests to
Therefore it is important to test and select these addi­
identify the most suitable additive for your ­application.
tives carefully.
Additional Technical Information on www.munzing.com
Additives for Surface and Substrate
Technical News No. 2
WETTING & LEVELING AGENTS
Product
Type
Charge
Active
­content
Solvent
%
METOLAT 285
Ester
anionic
50
Water
METOLAT 288
Ester
anionic
50
Water
METOLAT 355
Nonionic compounds
nonionic
100
–
METOLAT 362
Nonionic compounds
nonionic
100
–
METOLAT 364 New
Nonionic compounds
nonionic
100
–
METOLAT 367
Ester
nonionic
100
–
METOLAT 368
Ester
nonionic
100
–
METOLAT 388
Nonionic compounds
nonionic
100
–
METOLAT 700
Nonionic compounds
nonionic
100
–
METOLAT 725
Nonionic compounds
nonionic
100
–
METOLAT 750
Nonionic compounds
nonionic
100
–
METOLAT 775
Nonionic compounds
nonionic
100
–
METOLAT 780
Nonionic compounds
nonionic
100
–
METOLAT 1299
Ester
anionic
66
Water /
Propylene glycol
EDAPLAN LA 402
Acrylic copolymer
anionic
50
Butyl glycol
EDAPLAN LA 403
Acrylic copolymer
anionic
85
Water
EDAPLAN LA 411
Organic modified polysiloxane
nonionic
100
–
EDAPLAN LA 413
Organic modified polysiloxane
nonionic
100
–
EDAPLAN LA 451
Ester
anionic
68
Water / Ethanol
EDAPLAN LA 452
Ester
anionic
83
Water
Silicone
free
APE free
Water Based Systems
Substrate
wetting
Substrate
wetting in
overprint
varnishes
Applicable
Wetting of
film & foil
Wetting of Improvement­
pigments &
of print
fillers
transfer
Recommended
Highly recommended
Gloss
Brilliance of Compatibility No foaming
­metallic inks
agent
tendency
12–13
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Micronized waxes for flexographic inks
The global market for packaging inks is growing steadily
shape, as well as the narrow particle size facilitate sup­
every year. This growth raises the demand for improved
port the incorporation process.
quality, which can be achieved by using high quality
CERETAN spherical micronized waxes offer 100% active­ raw materials and additives. Due to our unique spray­
content leading to a reduction of the amount of wax in
ing technology we are able to produce various types
the formulation, due to its narrow particle size distribu­
of blended wax chemistries, which provide e
­ xactly the
tion. We guarantee a D 99 value, which almost completely
properties, which are needed by the industry.
avoids oversized particles. The spherical particle shape
Our micronized waxes are available in a variety of ­particle
offers a much smoother surface, improves the dispers­
sizes to meet exactly the requirements of our customers.
ing properties and reduces the gener­ation of dust dur­
CERETAN spherical micronized waxes are easy to ­handle
ing the incorporation process.
in water based formulations. The spherical p
­article
MICRONIZED WAXES
Product
Wax type
Particle size
Drop point
D99
µm
D50
µm
°C
109 – 117
110 – 118
122 – 130
108 – 118
CERETAN ME 0520
CERETAN ME 0825
CERETAN ME 1715
Polyethylene
Polyethylene
Polyethylene
20
25
15
7
8
7
CERETAN MF 5715
Polyethylene, PTFE modified
15
8
Oxidized polyethylene
Polar polyolefin
Fischer-Tropsch
Fischer-Tropsch
Polyolefin
Polyolefin
Polyolefin
20
15
15
20
10
15
20
7
6
6
7
6
5
7
CERETAN
CERETAN
CERETAN
CERETAN
CERETAN
CERETAN
CERETAN
MO 3220
MO 4715
MT 9115
MT 9120
MX 9510
MX 9815
MX 9820
New
New
(PTFE: 320 – 340 *)
104 – 112
108– 116
112 – 120
112 – 120
108 – 118
111 – 119
111 – 119
Coated waxes
Our latest technology enables us to coat our spherical
flexo inks. Coating a wax is only possible with our spray­
micronized waxes! Our functional blends coated with
ing technology, because the PTFE needs to be coated on
very fine PTFE particles, CERETAN MXF 9510 D and
the still soft surface of the wax at the right moment in
CERETAN MXF 9820 D, are the best selling grades for
order for the PTFE to stick onto the surface of the wax.
COATED WAXES
Product
Wax type
Coating
Particle size
Drop point of the wax
D99
µm
D50
µm
°C
CERETAN MXF 9510 D
Polyolefin
PTFE
10
6
108 – 118
CERETAN MXF 9820 D
Polyolefin
PTFE
20
8
111 – 119
SURFACE-MODIFIED WAXES
Product
Wax type
Particle size
Drop point
D99
µm
D50
µm
°C
CERETAN ME 0825 WD
Polyethylene
25
8
107 – 117
CERETAN MX 9820 WD
Polyolefin
20
7
111 – 119
CERETAN – Spherical micronized waxes
The sphere makes
the difference.
Air milled waxes
Application
Antiblocking
Spray micronized waxes
Gloss
Rub & mar resistance
Slip
OPV
Due to the improved distribution of PTFE on the surface
need to buy the wax and the PTFE separately, they can
of the ink, the effectiveness is increased and the reduc­
buy this from one single source, when choosing our
tion in PTFE concentration will lead to a more economic
CERETAN MXF 9510 D or CERETAN MXF 9820 D.
formulation for our ink customers. The customers will not
Application
Antiblocking
Gloss
Rub & mar resistance
Slip
Antiblocking
Gloss
Rub & mar resistance
Slip
OPV
Application
OPV
Recommended
Highly recommended
Water Based Systems
Our spherical micronized waxes provide numerous advantages compared to traditional air milled waxes.
14–15
PRINTING INK ADDITIVES
Water Based Systems
Water Based Systems
Water based wax dispersions and emulsions for flexographic inks
Being an expert for wax additives our technical service
In close cooperation with you, our modern laboratory
team will help you improve the surface properties
and our staff are at your disposal to develop and formu­
of your products.
late wax dispersions to meet your ­specific needs and
provide the desired effects in your coating systems. The
special service is available to you at all times.
WAX DISPERSIONS AND EMULSIONS
Product
Wax type
Solid
­content
Particle
size
Melting
range
%
D98
µm
D50
µm
°C
pH-Value
Ionogenity
LUBA-print 184/W
Polyethylene / PTFE
50
18
6
104 – 114
8,0
n
LUBA-print 185/B
Polyethylene
60
22
6
115 – 121
7,0
n
LUBA-print 338
Polyethylene
41
22
8
130 – 136
4,5
n
LUBA-print 499
Polyethylene
40
9
4
130 – 140
4,0
n
LUBA-print 551/2
Polyethylene
45
25
8
130 – 136
3,5
n
LUBA-print 760/D
Polyethylene
64
20
6
124 – 134
4,0
n
LUBA-print 5500
Polyethylene
50
6
4
125 – 133
7,0
n
LUBA-print W 5700
Polyethylene
48
7
3
112 – 122
4,5
n
LUBA-print WE 0520
Polyethylene
58
20
5
109 – 117 *
7,0
n
LUBA-print WE 0825 ns
Polyethylene
45
24
6
110 – 118 *
7,0
n
LUBA-print WE 3501
Polyethylene
35
1
–
128 – 138
9,0
n
LUBA-print WX 9825 ns
Polyolefin
51
24
7
111 – 119 *
7,5
n
LUBA-print WXF 9510
Polyolefin / PTFE
45
18
6
108 – 118 *
5,5
n
ns = non-standard
* = Drop point
n = nonionic
a = anionic
Water Based Systems
Application
Antiblocking
Gloss
Rub & mar
­resistance
OPV
Slip
Food contact
(Details on r­ equest)
Applicable
Recommended
Highly recommended
16–17
PRINTING INK ADDITIVES
Solvent Based Systems
DEFOAMERS
Product
Type
APE free
Incorporation
AGITAN DF 311 M
Mineral oil, few silicone
easy
AGITAN DF 6420
Mineral oil, few silicone
easy
FOAMTROL 110
Silicone compound
easy
DISPERSING AGENTS
Product
Type
Charge
Active
content
Solvent
Solvent Based Systems
%
EDAPLAN 397
Polyglycol esters
nonionic
100
–
EDAPLAN 711
Block copolymer
nonionic
35
Butyl acetate
METOLAT LA 524
Fatty derivative copolymer
amphoteric
50
Xylene / Iso-butanol
WETTING & LEVELING AGENTS
Product
Type
Charge
Active
content
Solvent
%
METOLAT 355
Nonionic compounds
nonionic
100
–
METOLAT 388
Nonionic compounds
nonionic
100
–
EDAPLAN LA 402
Acrylic copolymer
anionic
50
Glycol ether
EDAPLAN LA 410
Organic modified polysiloxane
nonionic
100
–
EDAPLAN LA 412
Organic modified polysiloxane
nonionic
100
–
EDAPLAN LA 413
Organic modified polysiloxane
nonionic
100
–
Silicone
free
Inorganic ­
pigments
Organic
pigments
Carbon
blacks
Fillers
Binder
containing grinds
Solvent Based Systems
APE free
APE free
Leveling
Applicable
Wetting of
film & foil
Recommended
Anti-­cratering
Wetting of
­pigments &
fillers
Highly recommended
Gloss
Compatibility
agent
Defoaming
properties
18–19
PRINTING INK ADDITIVES
Solvent Based Systems
Waxes and micronized waxes
High quality print products, which are being produ­ced by
and publication inks, which have been adapted in chem­
gravure printing, require waxes with very good scratch-
istry to achieve these requirements.
and abrasion resistance, as well as very good processing
The tables will show you the properties & effects of our
properties for high volume printing. ­MÜNZING provides
spherical waxes and wax dispersions in your c­oating
products with very small particle sizes for packaging
formulation.
WAXES AND MICRONIZED WAXES
Product
Wax type
Solvent Based Systems
CERETAN MA 7150
CERETAN MA 7250
Particle size
Drop point
D99
µm
D50
µm
°C
Erucamide
50
12
80 – 88
Stearamide
50
10
98 – 108
CERETAN ME 0520
Polyethylene
20
7
109 – 117
CERETAN ME 0825
Polyethylene
25
8
110 – 118
CERETAN ME 1715
Polyethylene
15
7
122 – 130
CERETAN MF 5010
Polyethylene, PTFE modified
10
6
CERETAN MF 5108
PTFE
8
5
Polar polyolefin
15
6
108 – 116
Fischer-Tropsch
15
6
112 – 120
CERETAN MT 9120
Fischer-Tropsch
20
7
112 – 120
CERETAN MX 9510
Polyolefin
10
6
108 – 118
CERETAN MX 9815
Polyolefin
15
5
111 – 119
CERETAN MX 9820
Polyolefin
20
7
111 – 119
ns
CERETAN MO 4715
CERETAN MT 9115
New
108 – 118
(PTFE: 320 – 340 *)
320 – 340 *
Coated waxes
Our latest technology enables us to coat our spherical
our spraying technology, because the PTFE needs to be
micronized waxes! Our functional blends coated with
coated on the still soft surface of the wax at the right
very fine PTFE particles, CERETAN MXF 9510 D and
moment in order for the PTFE to stick onto the surface of
­CERETAN MXF 9820 D, are the best selling grades for
the wax.
solvent based inks. Coating a wax is only possible with
COATED WAXES
Product
Wax type
Coating
Particle size
Drop point of the wax
D99
µm
D50
µm
°C
CERETAN MXF 9510 D
Polyolefin
PTFE
10
6
108 – 118
CERETAN MXF 9820 D
Polyolefin
PTFE
20
8
111 – 119
ns = non-standard
* = Melting Point
CERETAN – Spherical micronized waxes
Our spherical micronized waxes provide numerous advantages compared to traditional air milled waxes.
The sphere makes
the difference.
Air milled waxes
Application
Spray micronized waxes
Antiblocking
Gloss
Rub & mar ­resistance
Slip
Solvent Based Systems
OPV
Due to the improved distribution of PTFE on the surface
not need to buy the wax and the PTFE separately, they
of the ink, the effectiveness is increased and the reduc­
can buy this from one single source, when choosing our
tion in PTFE concentration will lead to a more economic
PTFE coated waxes.
formulation for our ink customers. The customers will
Application
Antiblocking
OPV
Recommended
Highly recommended
Gloss
Rub & mar ­resistance
Slip
20–21
PRINTING INK ADDITIVES
Solvent Based Systems
Solvent based wax dispersions for flexographic inks
Being an expert for wax additives our technical service
wax dispersions to meet your ­specific needs and ­provide
team will help you improve the surface properties
the desired effects in your coating systems. The special
of your products.
service is available to you at all times.
In close cooperation with you, our modern laboratory and
our staff are at your disposal to develop and formulate
WAX DISPERSIONS
Solvent Based Systems &
Oil Based Dispersions
Product
Wax type
Solvent
Solid
­content
Particle
size
Melting
range
%
D 98
µm
D 50
µm
°C
LUBA-print 121/C
Hydrocarbon
Ethyl acetate
10
20
8
71–82 *
LUBA-print 161/T
Amide
Ethanol
40
–
–
86–92
LUBA-print 232/D
Polyethylene
Ethanol
50
18
6
105–115
LUBA-print 266/D
PTFE
2-Propanol (IPA)
31
12
5
–
LUBA-print 301/C
Polyethylene
Ethanol
30
18
7
103 – 114
LUBA-print 654/D
Polyethylene
Ethanol
40
25
9
130–136
LUBA-print 654/DF 2
Polyethylene
Ethanol
20
16
6
130–136
LUBA-print 754
Polyethylene
Ethanol
40
20
7
103–114
LUBA-print 887/H
Functional blend
Ethanol
25
10
5
87 – 93
LUBA-print 2036 A
Polyethylene
Ethanol
20
18
6
130–136
LUBA-print 3036 A
Polyethylene
Ethanol / 2-Propanol (IPA)
30
18
6
130–136
LUBA-print SEB 0820 ET New
Biopolymer, Polyethylene Ethanol
40
20
5
110 – 118 *
* = Drop Point
Oil Based Dispersions
Oil based wax pastes for heatset inks
We can offer you tailor made products from one source:
your system without any additional grinding of the final
highly concentrated wax pastes in your preferred oil
product. We will be happy to create a specific product
with a very fine particle size, which can be added into
according to your needs.
OIL BASED DISPERSIONS
Product
Wax type
Solvent
Solid
content
Particle
size
Drop point
of the wax
in %
D98
µm
D50
µm
°C
LUBA-print OF 5108
PTFE
Linseed oil
47
8
3
–
LUBA-print OX 9815
Polyolefin
Linseed oil
35
12
5
–
LUBA-print OXF 9510
Polyolefin / PTFE
Linseed oil
35
12
5
–
* = Melting range
Application
Antiblocking
Gloss
Rub & mar
resistance
OPV
Slip
Food
contact
Solvent Based Systems &
Oil Based Dispersions
(Details on request)
Antiblocking
Applicable
Gloss
Recommended
Rub & mar
resistance
Highly recommended
Slip
22–23
PRINTING INK ADDITIVES
Radiation Cured Systems
Micronized waxes for UV inks
Just like UV Coatings, the UV printing ink technology
Our micronized waxes for UV inks are selected products
is growing within the printing ink sector and offers
with a very fine particle size in order to match the very
new qualities and possibilities for the customers. This
fine ink film thickness. Furthermore we use raw materials
techno­logy has already been used in screen inks, flexo­
with good UV light resistance and excellent scratch
graphic packaging and offset printing for a long period
­resistance and gloss properties.
of time, and is nowadays followed by gravure inks and
other special processes.
MICRONIZED WAXES
Product
Wax type
Particle size
Drop
point
D99
µm
D50
µm
°C
CERETAN ME 0825
Polyethylene
25
8
110 – 118
CERETAN ME 1715
Polyethylene
15
7
122 – 130
CERETAN MF 5108
PTFE
8
5
320 – 340 *
CERETAN MM 8015
Montan
15
5
90 – 98
Oxidized polyethylene
20
7
104 – 112
Polyolefin
15
5
111 – 119
CERETAN MO 3220
New
CERETAN MX 9815
Radiation Cured Systems
Coated waxes
Our latest technology enables us to coat our spherical
possible with our spraying technology, because the
micronized waxes! Our functional blend coated with
PTFE needs to be coated on the still soft surface of the
very fine PTFE particles, CERETAN MXF 9510 D, is the
wax at the right moment in order for the PTFE to stick
best selling grade for flexo inks. Coating a wax is only
onto the surface of the wax.
COATED WAXES
Product
CERETAN MXF 9510 D
Wax type
Polyolefin
Coating
PTFE
Particle size
Drop point
of the wax
D99
µm
D50
µm
°C
10
6
108 – 118
* = Melting range
CERETAN – Spherical micronized waxes
Our spherical micronized waxes provide numerous advantages compared to traditional air milled waxes.
The sphere makes
the difference.
Air milled waxes
Application
Spray micronized waxes
Antiblocking
Gloss
Rub & mar
resistance
Slip
Due to the improved distribution of PTFE on the surface
need to buy the wax and the PTFE separately, they can
of the ink, the effectiveness is increased and the reduc­
buy this from one single source, when choosing our
tion in PTFE concentration will lead to a more economic
CERETAN MXF 9510 D.
formulation for our ink customers. The customers will not
Application
Antiblocking
OPV
Recommended
Highly recommended
Gloss
Rub & mar
resistance
Slip
Radiation Cured Systems
OPV
24–25
PRINTING INK ADDITIVES
Radiation Cured Systems
DEFOAMERS
Product
Type
AGITAN 760
APE free
Incorporation
Silicone compound
fair
AGITAN DF 6421
Mineral oil, few silicone
fair
FOAMTROL 110
Silicone compound
fair
DISPERSING AGENTS
Product
Type
Charge
Active
content
Solvent
%
EDAPLAN 710
Block copolymer
nonionic
30
Dicarboxylic acid ester
Special Additives
Special additives for heatset inks
Individuality is standard! Our micronized complex-buil­
based on PRINTPLEX® MK 3025, which has already been
ding additive PRINTPLEX MK 3025 has established it­
milled to the particle size needed in your heatset-ink.
self as bestselling product throughout the last years.
It saves time and energy – just stir it in!
®
Radiation Cured Systems &
Special Additives
The improved LUBA-print OK 3010 is a very fine paste
HEATSET INKS
Product
Consistency
Chemistry
LUBA-print OK 3010
Paste
EDTA
PRINTPLEX MK 3025
Solid
EDTA
Inorganic
pigments
Applicable
Recommended
Organic
pigments
Carbon
blacks
Binder containing
grinds
Highly recommended
Description
Very fine dispersion of the chelating agent intended for direct stir-in
Finely micronized chelating agent
Fillers
Radiation Cured Systems &
Special Additives
APE free
26–27
PRINTING INK ADDITIVES
Notes
MÜNZING CHEMIE GmbH
Münzingstrasse 2
74232 Abstatt
GERMANY
Phone +49 7131 987-0
Fax
+49 7131 987-125
E-Mail info@munzing.com
MÜNZING
Micro Technologies GmbH
MÜNZING
International S.a.r.L.
Dr.-Bergius-Strasse 16–24
06729 Elsteraue
GERMANY
Phone +49 3441 829 10-22
Fax
+49 3441 829 10-20
E-Mail ceretan@munzing.com
23, rue Aldringen
L-1118 LUXEMBOURG
Phone +352 2627 1520
Fax
+352 2627 1530
E-Mail benelux@munzing.com
MÜNZING CHEMIE Iberia S.A.
MÜNZING North America
MÜNZING Shanghai Co.Ltd.
C/ Francesc Layret, 2
E-08170 Montornès
del Vallès (Barcelona)
SPAIN
Phone +34 93 5722075
Fax
+34 93 5722683
E-Mail iberia@munzing.com
1455 Broad Street, Suite #3
Bloomfield
NJ 07003-3003
USA
Phone +1 973 279-1306
Toll Free +1 800 524-0055
Fax
+1 973 338-0420
E-Mail info@munzing.us
Room 404-408, Building 12
No. 128 Xiangyin Rd.
USST National Science Park
Shanghai 200433
P.R. CHINA
Phone +86 21 6149 1561
Fax
+86 21 6149 1563
E-Mail info@munzing.cn
Visit our website for more information…
for international representatives…
www.munzing.com
›
MUE_2016_015_EN_V05 – 03|16
Contact