Blended isocyanate of TDI (toluene diisocyanate) and MDI (methylene diphenyl diisocyanate). It is specially developed for cold cure system. Used in the manufacture of HR (high resilience) flexible... view more

Blended isocyanate of TDI (toluene diisocyanate) and MDI (methylene diphenyl diisocyanate). It is specially developed for cold cure system. Used in the manufacture of HR (high resilience) flexible... view more

Polyol modified isocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride). Recommended applications include ISF... view more

Polyol modified isocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride). Recommended applications include fascia for... view more

Mixture of pure and polymeric MDI (methylene diphenyl diisocyanate). It exhibits superior compatibility with polyols. Applications include elastomers and rigid & semi-rigid foams... view more

Polyisocyanate. This prepolymer reacts with atmospheric moisture to produce higher molecular weight polyureas and thereby forms cured films on substrates. Used as cross-linking agent in combination... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. This prepolymer reacts with atmospheric moisture to produce higher molecular weight polyureas and thereby forms cured films on substrates. Used as cross-linking agent in combination... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride)... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as binding agent for substrates... view more

Polyisocyanate. This prepolymer reacts with atmospheric moisture to produce higher molecular weight polyureas and thereby forms cured films on substrates. Used as cross-linking agent in combination... view more

Polyisocyanate. This prepolymer reacts with atmospheric moisture to produce higher molecular weight polyureas and thereby forms cured films on substrates. Used as cross-linking agent in combination... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It contains isocyanurate rings. Exhibits faster curing characteristics as compared to others. Isocyanates are themselves produced by treating amines with phosgene via the formation... view more

Polyisocyanate. It is masked with blocking agent (phenol/ ε-caprolactam). In combination with various polyols, stable one-component systems can be obtained... view more

Polyisocyanate. It is masked with blocking agent (phenol/ ε-caprolactam). In combination with various polyols, stable one-component systems can be obtained... view more

Polyisocyanate. This prepolymer reacts with atmospheric moisture to produce higher molecular weight polyureas and thereby forms cured films on substrates. Used as cross-linking agent in combination... view more

Polyisocyanate. It is masked with blocking agent (phenol/ ε-caprolactam). In combination with various polyols, stable one-component systems can be obtained... view more

Polyisocyanate. It is masked with blocking agent (phenol/ ε-caprolactam). In combination with various polyols, stable one-component systems can be obtained... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as binding agent for substrates... view more

CORONATE® HL by Nippon Polyurethane Industry is used as binding agent for substrates. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound which is modified... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as a binding agent for substrates... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as binding agent for substrates... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as binding agent for substrates... view more

Polyisocyanate. It is a non-yellowing, HDI (hexamethylene diisocyanate) isocyanurate rings containing compound, modified by multifunctional alcohols. Used as binding agent for substrates... view more

Polyisocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride)... view more

Polyisocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride)... view more

Polyisocyanate. Isocyanates are themselves produced by treating amines with phosgene via the formation of intermediate (carbamoyl chloride)... view more

MDI (Methylene diphenyl diisocyanate) partially converted to carbodiimide. It is easy to handle. Applications include RIM (reaction injection molding), ISF (integral skin foams) and elastomers... view more

2, 4-TDI (toluene diisocyanate). It is suitable for elastomers... view more

Mixture of 2, 4-TDI (toluene diisocyanate) and 2, 6-TDI in the ratio of 65:35. On reacting with polyester polyols, it can be used in the production of high resilience flexible foams... view more

Mixture of 2, 4-TDI (toluene diisocyanate) and 2, 6-TDI in the ratio of 80:20. On reacting with polyether polyols, it becomes suitable for general types of flexible foams for use in mattresses and... view more

Diethylenetriamine is a modifying agent, epoxy curing agent, corrosion inhibitor, surface-active and chelating agent. It is a water soluble and viscous liquid by Tosoh with ammonia like odor and... view more

Decabromodiphenyl oxide. It acts as a flame retardant. Transforms regular plastics into thermo- and flame resistant plastics... view more

Tetrabromobisphenol-A. It acts as a flame retardant. Transforms regular plastics into thermo- and flame resistant plastics... view more

HDI (Hexamethylene diisocyanate). It is an aliphatic diisocyanate. Suitable for the preparation of non-yellowing PU (polyurethane) polymers... view more

MILLIONATE® MR-100 by Nippon Polyurethane Industry is an aromatic diisocyanate having mixture of pure and polymeric MDI (methylene diphenyl diisocyanate). Used for the production of elastomers... view more

MILLIONATE® MR-200 by Tosoh is an aromatic diisocyanate. It is a mixture of pure and polymeric MDI (methylene diphenyl diisocyanate). Exhibits superior compatibility with polyols. Used for the... view more

Mixture of pure and polymeric MDI (methylene diphenyl diisocyanate). It exhibits superior compatibility with polyols. Applications include elastomers and rigid & semi-rigid foams... view more

Mixture of pure and polymeric MDI (methylene diphenyl diisocyanate). It exhibits superior compatibility with polyols. Applications include elastomers and rigid, semi-rigid & high density molded... view more

MDI (Methylene diphenyl diisocyanate). It is an aromatic diisocyanate having two isocyanate groups of equal reactivity. Hence, it is suitable for the preparation of linear polymers by reacting with... view more

MDI (Methylene diphenyl diisocyanate). It is an aromatic diisocyanate having two isocyanate groups of equal reactivity. Hence, it is suitable for the preparation of linear polymers by reacting with... view more

MDI (Methylene diphenyl diisocyanate) partially converted to carbodiimide. It is easy to handle. Applications include RIM (reaction injection molding), ISF (integral skin foams) and elastomers... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

NIPPOLLAN® 1100 is polyester polyol by Tosoh. It is pale yellow in color. NIPPOLLAN® 1100 is synthesized from aliphatic & aromatic carboxylic acids and many kinds of glycols... view more

NIPPOLLAN® 121E by Tosoh is polyester polyol. It is synthesized from aliphatic & aromatic carboxylic acids and many kinds of glycols. NIPPOLLAN® 121E is a pale yellow liquid... view more

NIPPOLLAN® 125P is polyester polyol by Tosoh. It is synthesized from aliphatic & aromatic carboxylic acids and many kinds of glycols. NIPPOLLAN® 125P is pale yellow in color... view more

NIPPOLLAN® 131 by Tosoh is a pale yellow polyester polyol. It is synthesized from aliphatic and aromatic carboxylic acids. NIPPOLLAN® 131 is also based on many kinds of glycols... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from aliphatic & aromatic carboxylic acids and many kinds of glycols... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from organic acids and glycols. Used in the production of polyurethane elastomers and TPU (thermoset urethane)... view more

Polyester polyol. It is synthesized from aliphatic & aromatic carboxylic acids and many kinds of glycols... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Polycarbonate diol. When used in combination with isocyanates, it exhibits superior durability, water resistance, heat resistance and weather resistance. It is the most suitable polyol for... view more

Triethylenetetramine by Tosoh is a water soluble and viscous liquid with ammonia like odor and chemical reactivities. It functions as an epoxy resin curing agent, modifying and surface active agent... view more

Isocyanate. It is highly reactive and produced by the reaction of amines with phosgene. Reduces diffusion of formaldehyde. Compatible with wood... view more

Isocyanate. It is highly reactive and produced by the reaction of amines with phosgene. Reduces diffusion of formaldehyde. Compatible with wood... view more