IGLOO, vinyl emulsion colorant, is produced based on Polyvinyl Acetate (P.V.A) resins. All Desired colors and shades can be obtained by adding required percentages of colorant to all types of P.V.A based paints. Due to its resistance against sunlight and UV, it can be used for drawing on wall and textile.
IGLOO, vinyl emulsion colorant, is produced based on Polyvinyl Acetate (P.V.A) resins. All Desired colors and shades can be obtained by adding required percentages of colorant to all types of P.V.A based paints. Due to its resistance against sunlight and UV, it can be used for drawing on wall and textile.
IGLOO, vinyl emulsion colorant, is produced based on Polyvinyl Acetate (P.V.A) resins. All Desired colors and shades can be obtained by adding required percentages of colorant to all types of P.V.A based paints. Due to its resistance against sunlight and UV, it can be used for drawing on wall and textile.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
An unprotected building can absorb over 1 Liter of water per square ft. in 6 hours during 32 kilometer per hour wind driven rain. A concrete structure will absorb almost 2 liters of water in the similar condition. Rain water absorption causes multiple damage to the structure.
Saturated polyester resin is prepared from esterification reaction of poly acid with poly alcohol and is divided into two groups of liquid saturated polyester (solvent base) and solid saturated polyester. Solvent-based polyester resins are applied in coatings used on metal sheets, can coating, coil coating and automobile paints. They are also used in anti-corrosion coatings on iron- steel structures that have epoxy-based primers.
Saturated polyester resin is prepared from esterification reaction of poly acid with poly alcohol and is divided into two groups of liquid saturated polyester (solvent base) and solid saturated polyester. Solvent-based polyester resins are applied in coatings used on metal sheets, can coating, coil coating and automobile paints. They are also used in anti-corrosion coatings on iron- steel structures that have epoxy-based primers.
Saturated polyester resin is prepared from esterification reaction of poly acid with poly alcohol and is divided into two groups of liquid saturated polyester (solvent base) and solid saturated polyester. Solvent-based polyester resins are applied in coatings used on metal sheets, can coating, coil coating and automobile paints. They are also used in anti-corrosion coatings on iron- steel structures that have epoxy-based primers.
Epoxy resins are commonly the product of reaction between epichlorohydrin and bis-Phenol A. By increase in molecular weight and viscosity, they change from a low viscose liquid to a high viscose liquid and finally become solid. Solid epoxy resins are commonly manufactured in flake type, and generally used in production of powder coatings. They exhibit good chemical and mechanical resistance.
Epoxy resins are commonly the product of reaction between epichlorohydrin and bis-Phenol A. By increase in molecular weight and viscosity, they change from a low viscose liquid to a high viscose liquid and finally become solid. Solid epoxy resins are commonly manufactured in flake type, and generally used in production of powder coatings. They exhibit good chemical and mechanical resistance.
Epoxy resins are commonly the product of reaction between epichlorohydrin and bis-Phenol A. By increase in molecular weight and viscosity, they change from a low viscose liquid to a high viscose liquid and finally become solid. Solid epoxy resins are commonly manufactured in flake type, and generally used in production of powder coatings. They exhibit good chemical and mechanical resistance.