Additives for Coatings

Defoamers

Product Name Type Form at 25 C Description
VanFoam DF 40
Silicon
White to off white emulsion
Highly effective defoamer with
universal applicability
VanFoam NXZ
Mineral Oil
Yellow to amber dispersion
Efficient defoamer with permanent effect
VanFoam NDW
Mineral Oil
Yellow to amber dispersion
Highly effective and versatile defoamer
VanFoam DF 85
Mineral Oil
Off white to pale
yellow dispersion
Universal application wax based defoamer
Vanfoam SD
Silicon emulsion
Milky white liquid
Versatile silicon emulsion based defoamer
for a variety of applications including use
in synthetic latexes, industrial and maintenance
based coatings, textiles, wood finishes, inks etc.
Vanfoam DF 835
Mineral oil based defoamer
Hazy yellow to amber liquid
Highly effective mineral oil based defoamer
which provides efficient defoaming performance
in synthetic latexes, paints and coatings and inks
Vanfoam DF 022
Silicone containing defoamer
Translucent grey fluid
Silicon containing defoamer for aqueous
coatings, printing inks and adhesives.
It is also effective against microfoam
Vanfoam DF 024
Silicone containing defoamer
Translucent grey fluid
VOC free silicon containing defoamer
for aqueous emulsion lacquers,
printing inks, overprint varnishes, and
emulsion adhesives.

Wax Emulsions

Product Name Type Form at 25 C Description
Spectra WE 412
Polyethylene, nonionic
Amber translucent dispersion
Improves anti-scuff, anti-block,
gloss and slip properties in coatings
Spectra CNB 250
Carnauba, nonionic
White to off white dispersion
Increases scratch resistance,
lubrication, release and anti-block
properties in paints and coatings
Spectra WE 450
Oxidized HDPE wax
emulsion, APEO free
Pale yellow to amber
translucent liquid
Speciality wax emulsion which improves
the surface qualities like scuff and
mar resistance, abrasion resistance,
slip and anti-blocking of aqueous printing inks,
overprint varnishes, lacquers and leather
coatings. APEO free
Spectra WE 25
Paraffin wax
based emulsion
White to off white liquid

Wetting & Dispersing Additives

Product Name Type Form at 25 C Description
DisperSpec 1040 A
Ammonium polyacrylate
Pale yellow to yellow liquid
Excellent dispersing agent for
aqueous coating, specially inorganic pigments
DisperSpec 1040 S
Sodium polyacrylate
Pale yellow to yellow liquid
Versatile dispersing agent for
water based coatings, inks and rubber latexes
DisperSpec 1013M
Polyglycol ether
Colorless to pale yellow liquid
APEO free wetting agent for paints
and pigment emulsions. Nonionic
DisperSpec 061
Polyglycol ether
Colorless to pale yellow liquid
APEO free wetting and dispersing agent
for pigment emulsions manufacture. Nonionic
DisperSpec 1110
Polyglycol ether
Pale yellow to yellow liquid
Excellent dispersing agent for aqueous
pigment emulsion manufacture. Nonionic
DisperSpec 7003
Phosphate ester
Colorless to pale yellow liquid
Excellent dispersing agent for manufacture
of universal colorants and paints. Anionic
DisperSpec 6225
Modified polyester
Amber to brown liquid
Next generation wetting and dispersing agent
for manufacture of universal colorants. Nonionic
DisperSpec ET 20
Polyglycol ether
White to off white solid
Dispersing agent for pigments, fillers etc.
Also used as a processing aid in pigment manufacture

Coatings are multi component systems and a synergy needs to exist between all the components for a uniform, defect-free and stable coating. One of the basic physical processes in coatings manufacture is the dispersion of fine solid particles in the vehicle (water or solvent) to form a uniform, stable, colloidal dispersion. Stabilization of these solid particles is crucial to ensure a defect free, uniform surface coat. Wetting and dispersing additives are used to ensure these characteristics and are hence crucial additives in the formulation of coatings.

The main steps that take place in the dispersion process are:

  • Wetting of the particles
  • Dispersing the agglomerates
  • Stabilization

Selection of wetting and dispersing additives involves many factors that should be taken into consideration which include the vehicle (water or solvent), type and surface area of pigment (organic or inorganic), application (decorative, industrial, coil coatings etc) and curing conditions.

We have a wide range of wetting and dispersing additives based on different chemistries that are designed to suit the needs of various applications. Our wetting and dispersing additives can be used in decorative coatings, universal strainers, industrial coatings, etc.

All these surfactants effectively stabilize the foam that is generated in the manufacturing process. Even though surfactants stabilize foam and gas bubbles, they are not solely responsible for the degree of foam formation. Aside from these ingredients, production & application methods (e.g. pigment grinding, milling, spray applications etc.) and the viscosity of the coating have a large influence on the foam characteristics.

Foam that is formed when manufacturing coatings leads to several problems. For example, containers cannot be optimally filled because of the increase in volume. Problems also arise when refilling the coatings into processing and sales containers. If the bubbles burst during drying of the film, it leads to unwelcome surface defects, such as craters or pinholes. The protective effect of the coating surface is also decreased to a large extent.

Although the tendency towards foam generation and stabilization can be limited during formulation through suitable component selection, the only really effective way of avoiding such defects is the addition of suitable defoamers and foam inhibiting agents.

Defoamer selection for a given formulation is based on finding a suitable balance between the defoaming efficiency and compatibility of the defoamer in the system. Often times the defoamer giving the best defoaming performance are highly incompatible leading to surface defects and the most compatible defoamers may not give effective foam control. Additionally, an increase in the use of defoamers in the formulations may lead to formation of craters and pinholes in the final coating. Defoamer selection involves many factors that should be taken into consideration which include the raw materials used, method of manufacture, application and curing conditions.

Waxes impart or improve various surface effects as slip and lubrication, abrasion resistance, anti-blocking, matting and water repellency – all critical properties in the coating and ink areas. These waxes are in the solid form and have to be emulsified in order to obtain a water based emulsion which can be easily formulated.

We have on offer wax emulsions which can be readily added to the coating formulation to impart the desired surface effect. These emulsions are carefully made in order to be compatible with the regular components in these formulations.

Scroll to Top