Standard polyamide. Lower viscosity, higher chemical resistance, excellent adhesion to various substrates, good balance in performances. Recommended for adhesives and anticorrosion coatings.
Economical mixture of linear, branched, and cyclic ethylene amines that offers higher flexibility and peel strength in applications where color is not a limitation.
Offers very rapid curing and is highly suitable for anchoring systems or as accelerator. Suitable for primers if curing is required at temperatures down to -5°C.
Tertiary amine accelerator based on 2,4,6-tris-(N,N-Dimethyl-aminomethyl)-Phenol. Suitable as accelerator in low temperarure curing systems or other for non-decorative epoxy applications (primers, mortars, composites,….).
offer good color and light stability, as well as tack-free surfaces and an excellent early water resistance. D.E.H.™ 4702 has similar performance properties but is nonyl phenol free.
Universal curing agent offering a long pot life and is suitable for adhesives, highly filled coating systems, mortars and screeds. D.E.H.™ 487 is a nonyl-phenol-free version.
Recommended for elastic intermediate layers, especially when used in combination with D.E.R.™ 3911. It provides very high flexibility with elongation at break around 200%.
Free of benzyl alcohol, nonyl phenol, Bisphenol A and any inert volatile compounds for low-emission flooring systems. Excellent wetting, long pot-life and quick tack-free time.
Fully reactive curing agent containing no VOC and no alkyl phenol. Provides excellent performance in a wide variety of high performance applications, from top-coat flooring to anticorrosion coatings.
Low viscosity aliphatic amine adduct with high strength and modulus and provides good heat and chemical resistance. It has wide variety of applications in adhesives, trowelable flooring, mortars, grouts and patching compounds.
Low viscosity, low temperature curing agent for blush-free products with good water spot resistance and excellent chemical resistance to acids and solvents.
Very fast ambient and low temperature curing agent for non-blushing products with good water spot resistance, excellent chemical resistance, high gloss and high strength.
Excellent resistance to sulfuric acid (50 % to 98 %). Epoxy novolacs resins (D.E.R. 354, D.E.N. 425 or D.E.N. 431) need to be used for 98 % sulfuric acid resistance application. Good chemical resistance to concentrated hydrochloric acid. Contains NAA exempt solvents.
Very fast ambient and low temperature curing agent for non-blushing products with good water spot resistance, excellent chemical resistance, high gloss and high strength.
Medium viscosity modified aliphatic amine curing agent with very fast set time and good low temperature cure. May be used as accelerator for other amine based curing agents.
Modified amine curing agent with extreme high reactivity at low T °C and high chemical resistance. Suitable for chemical anchoring, impregnation/primer on concrete and as co-accelerator.
Highly reactive (non-Mannich base) curing agent with an improved EH&S profile, better chemical resistance and UV-stability over traditional Mannich base curing agents.
Aromatic amine suitable for curing liquid epoxy resins at elevated temperatures. Able to achieve glass transition temperature of 190 °C with regular liquid epoxy resin.
Phenolic hardener containing 0.7 wt% curing catalyst and about 2.5 wt% polyacrylate flow modifier of moderate reactivity. Phenolic curing agents offer excellent chemical and moisture/water resistance and improved flexibility compared to i.e. Dicyandiamide curing agents.
Polyamine adduct hardener DISSOLVED in water (storage/shear stable). Alkali-resistant so useful for ECC. Visible end of pot-life. In combination with solid epoxy emulsion suitable for corrosion protection on steel. Can be used on fresh concrete (immediately after being laid).
Aqueous polyamine adduct solution with emulsification capability. Offers visible end of pot life, fast drying, low odor. Suitable for thick layer self leveling applications.
Standard for Coating on Concrete. Not compatible with Zink Phosphates. Calcium phosphates could be used but more expensive. Visible end of pot-life. D.E.H. 805 allows to develop roller coat formulations with a matte, satin or high gloss finish.
Polyamine-adduct designed for best corrosion protection. Can handle anti-corrosion pigments. Avoid dispersion shear of >40°C. No visible end of pot-life.
Phenolic curing agent of intermediate reactivity containing 2 wt% curing catalyst as well as about 2.5 wt% polyacrylate flow modifier. The intermediate reactivity makes D.E.H. 81 particularly suitable as starting base for product development.
Designed for best corrosion protection. Not compatible with anti-corrosion pigments (zinc-phosphates). Best for clear coatings with solid epoxy dispersions. Show excellent adhesion to diamonds (Closest we have to Waterpoxy 751).
Designed for faster curing corrosion protection, i.e. faster version of 7006. Can handle zinc phosphate (anti-corrosion pigments). NO visible end of pot life with solid epoxy resin dispersions. Should not be used in too thick layer > 300 mu otherwise "mud-cracking" can occur. Can be dust-free in 30 minutes (when formulated)
High reactivity phenolic curing agent containing 3.5 wt% curing catalyst as well as about 2.5 wt% polyacrylate flow modifier. Can be formulated in low application temperature applications in combination with D.E.R. 6615 solid epoxy resin.
Phenolic curing agent of intermediate reactivity containing only about 1.9 wt% curing catalyst. The lack of flow modifier allows formulation with alternative additives that could potentially cause compatibility problems.
Unmodified phenolic curing agent particularly suitable for optimizing the reactivity of hardeners such as D.E.H. 81, D.E.H. 82 or D.E.H. 84 phenolic curing agent.
Approximately 2.4 functional low viscosity liquid epoxy novolac resin. D.E.N. 424 fills the gap between the standard Bisphenol F based liquid epoxy resin and multifunctional, low viscosity epoxy novolac resin D.E.N 425. Compared to standard Bisphenol A and Bisphenol F based liquid epoxy resins, D.E.N. 424 produces an improved crosslinked system, which enables better thermal and chemical resistance with a low viscosity that is necessary for easy processing and application.
Approximately 2.5 functional liquid epoxy novolac resin bridging between standard liquid epoxy resin and semi-solid epoxy novolac resins. When used in combination with a fast curing agent no post-cure is required and binder systems are obtained with excellent mechanical and especially solvent resistance properties.
Approximately 2.6 functional medium viscosity liquid epoxy novolac resin. D.E.N. 426 fills the gap between lower viscosity epoxy novolac resins such as D.E.N. 424 and higher viscosity epoxy novolac resins such as D.E.N. 431 and D.E.N. 438. When using D.E.N. 426 with carefully selected curing agents, the system provides faster thin film drying time at ambient temperature and has better resistance to chemicals such as acetic acid, toluene, and methanol.
Multi-functional (±2.8) epoxy novolac resin of lower viscosity compared to the higher viscosity epoxy novolac epoxy resin D.E.N. 431. In addition to improved processing of this medium viscosity novolac resin, D.E.N. 428 is distinguished by particularly good thermal resistance, chemical resistance, and mechanical properties. With these characteristic properties, D.E.N. 428 is suitable for applications such as protective coatings or linings for storage tanks, pipes, and pumps.
Multi-functional (±2.8) epoxy novolac resin of lower molecular weight for application where solvents cannot be tolerated and application viscosity (temperature) needs to remain relatively low. Used in adhesives, electrical and structural laminates and castings for elevated temperature service and excellent chemical resistance.
Highly functional (±3.6) epoxy novolac resin offering best mechanical, temperature and chemical resistance performance with acceptable viscosity. Recognized as a standard for high-temperature applications.
Highly functional (±3.8) epoxy novolac resin with improved reactivity. The higher viscosity offers a means of obtaining good drape and limited tack in Prepreg formulations.
Extremely high functional (± 4.4) epoxy novolac resin. Offers highest performance in this product group with regards to mechanical, temperature and chemical resistance properties.
Modified liquid epoxy resin; compared with standard bisphenol A based liquid epoxy resin, similar viscosity, improved flexibility, longer pot life and anticorrosion performance; suitable for high solids (80% volume solid above) formulation.
High viscosity, fast reacting (20% faster than D.E.R. 331) liquid epoxy resin designed for adhesive applications requiring quick gelling with amine curing agents.
Very low viscosity resin allowing large amounts of fillers. Cure rate similar to undiluted resins. Improved acid resistance can be observed. For floorings, grouting, concrete reinforcement, structural adhesives, crack injection and castings.
Low viscosity liquid epoxy resin with reduced surface tension. Offers excellent wetting and flow. The low diluent content is the cause of the improved mechanical properties over D.E.R. 324 epoxy resin.
Offers low viscosity and low surface tension to wet the surface better, giving better adhesion and slightly lower viscosity at any given filler loading. The diluent increases pot life, flexibility (impact resistance) and acid resistance.
Low viscosity liquid epoxy resin with reduced surface tension. Offers excellent wetting and flow. The low diluent content is the cause of the improved mechanical properties over D.E.R. 323 and D.E.R. 324 epoxy resin.
Medium viscosity liquid epoxy resin with di-functional reactive diluent. Especially suited for lamination purposes where it shows excellent wetting of the fabric and gives outstanding mechanical properties.
Low viscosity epoxy resin with very good thermal properties, and excellent fatigue behavior. Allows fast low temperature cure, and improved solvent resistance. For use in coatings for tank-linings and solvent-free/high solids epoxy binders.
D.E.R. 330 epoxy resin is a low viscosity bisphenol A epoxy resin commonly used in composite and casting applications. D.E.R. 330 epoxy resin frequently crystallizes at room temperature; heating to 50-55°C restores the resin to liquid state. Long-term warm storage may result in slight discoloration but does not affect the resin performance.
Standard bisphenol-A epoxy resin with very low hydrolysable chloride content (<150 ppm). Specifically suitable for electrical, electronic and encapsulation applications.
Industry standard bisphenol-A based liquid epoxy resin. Offers excellent mechanical, thermal and chemical resistance properties in multiple applications. Shows improved reactivity and wetting properties versus competitive alternatives.
High purity diglycidylether ether of bisphenol A. Its high purity and low oligomer content assures uniform performance, exceptionally low viscosity and improved elevated temperature properties over standard epoxy resins. This resin grade is mainly used in electrical encapsulation applications.
Intermediate viscosity epoxy resin with very low hydrolysable chloride content (<150 ppm). Specifically suitable for electrical, electronic and encapsulation applications.
Intermediate epoxy equivalent weight semi-solid epoxy resin, mainly used in adhesives and protective coatings, or as a modifier for other epoxy resins to improve impact strength, extensibility and adhesion.
Solution of D.E.R. 337 in xylene. The excellent resistance and physical properties for epoxy coal tar combinations and higher solids content marine coatings.
Low viscosity rapidly reacting Bisphenol A/F epoxy resin designed for fast-curing coatings, adhesives, and mortars. It can be used as the sole epoxy or in combination with other epoxy resins. Rapid cure, return to service, Low emissions or substance of concern content, Low viscosity, Good chemical resistance
Master-batch accelerated epoxy resin with a catalyst active at room temperature. Allows shorter gel and drying times in room temperature cure and fast cycling times in composites applications.
Master-batch accelerated epoxy resin with a catalyst active at temperatures of 60 °C and above. Used in composite, heat cure, applications for fast cycling times.
D.E.R. 351 liquid epoxy resin is a low viscosity epoxy resin combining the performance properties of standard bisphenol A epoxy resin with the low viscosity of bisphenol F epoxy resin. The resin blend shows a low tendency to crystallization. Applications include solvent-free coatings, tank- and pipe-linings, concrete reinforcements and also floorings, adhesives, electrical insulation and filament winding.
Low viscosity epoxy resin with very low crystallization tendency. Offers low surface tension to wet the surface better, giving better adhesion. The diluent increases pot life, flexibility (impact resistance) and acid resistance.
Low crystallization resin with low vapor pressure and hydrophobic in nature. Offers low viscosity and good wetting properties it is suitable for casting resin coatings and adhesives
Low crystallization resin with low vapor pressure and hydrophobic in nature. Offers very low viscosity and good wetting properties. Similar to D.E.R. 3531 in nature.
Low crystallization resin with low vapor pressure and hydrophobic in nature. Offers extremely low viscosity and good wetting properties. Similar to D.E.R. 3531/3532 in nature.
Unmodified bisphenol F-based epoxy resin of low viscosity. Improves crystallization resistance of other epoxy resins and gives improvement in solvent resistance. Frequently used in solvent-free coatings, floor coverings, adhesives or composite applications.
Low crystallization tendency modified bisphenol-A/F liquid epoxy resin. Offers excellent wetting and is recommended for floorings, mortars, grouts and adhesives.
Very low viscosity epoxy modified epoxy resin with fast cure and good mechanical properties. For highly fillers systems, crack injection systems or low viscous primers.
The product performance is very similar to that obtained with D.E.R. 352 Resin except that this resin will provide a more rapid cure (higher reactivity).
Liquid epoxy resin, modified with a di-funtional reactive diluent. Offers improved reactivity, better mechanical properties as well as solvent resistance versus mono functional aliphatic diluents.
Liquid epoxy resin, modified with a lower vapor pressure di-functional reactive diluent. Offers improved reactivity, better mechanical properties as well as solvent resistance versus mono functional aliphatic diluents.
Chemically modified liquid epoxy resin without diluent. Offers excellent flow and high gloss coatings / floorings. This resin is used in building application above and below ground, on road and bridge construction, as well as in underwater applications.
Lower viscosity bisphenol-A epoxy resin allowing the use of less diluents or more fillers in the formulation. Offers longer pot-life versus the standard resin and slightly improved resistance properties when used in heat curing (composite) applications.
Flexible epoxy resin that offers high elongations at break at room temperature as well as at -20°C. Can be used with standard epoxy amine adduct curing agents for flooring formulations in (freezing-) cold areas.
Brominated epoxy resin in acetone with about 17% bromine on solids. Offers best dimensional stability and better chemical resistance that standard resins.
Brominated epoxy resin in DOWANOL™ PM glycol ether with about 17 wt% bromine on solids. Allows quicker cure and higher Tg due to the large amount of catalyst that can be added.
Low molecular weight “1.5-type” epoxy resin offers excellent flow in standard and low temperature cure powder coating systems. Suggested in cases where D.E.R. 662E Resin does not provide adequate flow.
Chemically modified bisphenol A solid epoxy resin for very high flow and gloss powder coating applications. Specifically suitable for thin film applications.
Novolac modified solid resin for functional powder coatings. In combination with other resins provides excellent corrosion and chemical resistance combined with good mechanical properties. Typical applications include pipe coatings and internal drum linings.
Novolac modified solid resin for functional powder coatings. In combination with other resins provides excellent corrosion and chemical resistance combined with good mechanical properties. Typical applications include pipe coatings and internal drum linings.
Solution of D.E.R. 660 epoxy resin in propyl acetate. The solvent choice makes it possible to formulate coatings without solvents listed as Hazardous Air Pollutants.
Intermediate molecular weight epoxy resin in a xylene solution for high solids / build coatings. Combines the high solids and chemical resistance of liquid epoxy resins with the outstanding adhesion, flexibility and fast cure of higher molecular weight solid epoxy resin.
Unmodified standard “1-type” solid epoxy resin. Excellent base for many high quality chemical-resistant coatings withstanding exposure to corrosive atmospheres.
Low application temperature cure, down to approximately 110 °C, solid epoxy resin. Based on Dow patented process technology which allows combination of low melt viscosity whilst retaining sufficiently high softening point.
Unmodified standard "1-type" solid epoxy resin. Excellent base for many high quality chemical-resistant coatings withstanding exposure to corrosive atmospheres.
Medium molecular weight “3-type” epoxy resin for both pure epoxy and epoxy/polyester hybrid powder coatings requiring good gloss, smoothness and excellent flexibility.
Medium molecular weight “3-type” epoxy resin for both pure epoxy and epoxy/polyester hybrid powder coatings requiring good gloss, smoothness and excellent flexibility.
Medium molecular weight “4-type” epoxy resin containing an esterification catalyst. Esters prepared by reacting this resin with fatty acids have very consistent viscosities and acid values.
Medium molecular weight “4-type” epoxy resin for both decorative and functional coatings to provide improved viscosity characteristics and greater flexibility.
Medium molecular weight “4-type” epoxy resin for both decorative and functional coatings to provide improved viscosity characteristics and greater flexibility.
Higher reactivity, high molecular weight “7-type” solid epoxy resin. Suitable for metal decoration, interior and exterior can coatings, tube and drum linings, coil primers and many other industrial applications.
High molecular weight “7 type” solid epoxy resin with improved solution stability. Suitable for metal decoration, interior and exterior can coatings, tube and drum linings, coil primers and many other industrial applications.
Low molecular weight "1-type" solid epoxy resin designed for room temperature curing wet paints. Industry standard for heave duty anti-corrosion paints for which many solutions exists.
Novolac modified, higher molecular weight solid epoxy resin for more flexible, corrosion resistant epoxy powder coating. Extra edge-coverage can be obtained by the addition of 10-50% of this resin grade to the pipe or internal drum lining formulation.
Novolac modified, higher molecular weight solid epoxy resin for more flexible, corrosion resistant epoxy powder coating. Extra edge-coverage can be obtained by the addition of 10-50% of this resin grade to the pipe or internal drum lining formulation.
Solution of an ultra-high molecular weight epoxy resin. Provides coatings with good physical properties by solvent evaporation alone. Main applications include maintenance- and flash-primers, shop coats, wire enamels, road marker primers and clear coatings for brass, chrome and aluminum.
Low molecular weight "2.5-type" epoxy resin containing 2 wt% of a polyacrylate flow modifier. The flow modifier is different than in D.E.R. 692HB epoxy resin.
Low molecular weight "2.5-type" epoxy resin containing 2.5 wt% of a polyacrylate flow modifier. The flow modifier is different than in D.E.R. 692H epoxy resin.
An aliphatic reactive diluent bearing on average of slightly more than two epoxy groups per molecule. Its multi-functionality allows developing systems that are fast curing at low temperatures with excellent mechanical properties.
Containing on average three epoxy groups per molecule. Its higher functionality above D.E.R. 741 epoxy resin allows even better properties in most epoxy, and especially composite, applications.
Flexibilised epoxy resin suitable for civil engineering compounds (crack bridging), adhesives or for improvement of the toughness of fiber reinforced composites.
Master batch resin for powder coatings. The siloxane flow modifier provides maximum transparency in clear powder coatings. Also the flow modifier provides good slip and mar resistance.
Dispersion of a 1-type solid epoxy resin, similar to D.E.R. 671 epoxy resin, in water with very low average particle size and narrow distribution. Absolute VOC-free for medium-high anti-corrosion paints. Also suitable for fast drying floor coatings.
Emulsion of an epoxy novolac resins, similar to D.E.N.™ 438™ epoxy novolac, in water. For high chemical resistance and/or high temperature resistance coating applications.
Emulsion of a standard bisphenol-A liquid epoxy resin, similar to D.E.R. 331™ epoxy resin, in water. 100% VOC free. Designed for civil engineering applications requiring improved crosslink density, solvent resistance and hardness. Also suitable as co-reactant in other aqueous systems.
Waterborne Dispersion of “1-type” solid epoxy resins with increased solids content. Offers good corrosion protection on steel as well as fast-drying on mineral substrates.
Low viscosity liquid epoxy resin modified with a Cycloaliphatic polyglycidyl ether for high solids coating formulations with ultra low volatile organic compound (VOC) emissions and ease of application. Excellent corrosion protection and chemical resistance. Can be cured with multiple types of curing agents (hardeners)
Low viscosity epoxy resin modified with a Cycloaliphatic polyglycidyl ether for high solids coating formulations with low volatile organic compound (VOC) emissions, excellent application, corrosion and chemical resistance. Can be cured with multiple types of curing agents (hardeners)
Ultra Low viscosity epoxy resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) for high solids coating formulations with low volatile organic compound (VOC) emissions, excellent application, corrosion and chemical resistance. This resin is more hydrophobic and can provide better surface wetting. Can be cured with multiple types of curing agents (hardeners)
Low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) for high solids coating formulations with low volatile organic compound (VOC) emissions. Balance of properties similar to solvent borne Novolac.
Low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) for high solids coating formulations with low volatile organic compound (VOC) emissions. Balance of properties similar to solvent borne Novolac.
Low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) that facilitate high solids coating formulations with low volatile organic compound (VOC) emissions, improved application, strong chemical and thermal resistance.
Low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) that facilitate high solids coating formulations with low volatile organic compound (VOC) emissions, improved application, strong chemical and thermal resistance.
Medium low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) that facilitate high solids coating formulations with low volatile organic compound (VOC) emissions, improved application, strong chemical and thermal resistance.
Medium low viscosity Novolac resin modified with a Cycloaliphatic polyglycidyl ether (free of any organic solvent) that facilitate high solids coating formulations with low volatile organic compound (VOC) emissions, improved application, strong chemical and thermal resistance.
Toughened bisphenol-A liquid epoxy resin master-batch (50 wt%). Allows easy formulation into other liquid epoxy binder systems for composite as well as coating applications
Elastomer-modified epoxy functional adduct designed to improve toughness of epoxy systems with minimal impact on thermo-mechanical properties. Offers improved fatigue resistance, thermal shock resistance, impact resistance, and peel and shear strength.
Low viscosity toughener based on innovative technology. Imparts adhesion, impact resistance and anticorrosion resistance via nanometer size phase separation in curing matrix.
Specialty resin designed to improve flexibility and impact resistance of fusion bonded epoxy coatings with high glass transition temperature ( up to 160 °C)
Specialty resin designed to improve flexibility and impact resistance of fusion bonded epoxy coatings with high glass transition temperature ( up to 160 °C)
Phosphorous containing phenolic hardener for halogen-free electrical laminate applications recommended for use with specialty epoxy resins XZ 92748.00 or XZ 92757.00.
Slight greater molecular weight distribution version of D.E.R. 671X75 . T produyct may show some turbidity and can conatin solvents other than Xylene, such as ketones, aromatics and alcohols up to 4 wt%. For critical applications and food contact use, it is recommended to use the D.E.R. 671X75 epoxy resin solution.
Flow modifier supplied in non-toxic cyclohexanone. Designed to reduce flow in the production of FR-4 type rigid board and multilayer electrical laminates. Especially formulated to have enhanced flow control without negatively impacting the glass transition temperature.