Coronate® 2030 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2031 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2050 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2071 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2074 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2232 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2233 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2255 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
Coronate® 2257 is a fast-curing polyisocyanate resin, in the form of a pale yellow liquid, that contains isocyanurate rings. This product finds application in wood sanding sealers, metal paints, and gravure inks.
The Rheolaser™ Coating is a non-invasive, optical technique used to analyze the drying profiles of thing films. The device uses Diffusing Wave Spectroscopy to detect the Browniam motion of the particles inside of a thin film sample as it dries in order to...view more
The Rheolaser™ Coating is a non-invasive, optical technique used to analyze the drying profiles of thing films. The device uses Diffusing Wave Spectroscopy to detect the Browniam motion of the particles inside of a thin film sample as it dries in order to give profile evolution and characteristic drying times. view less
A new device from Formulaction, the Rheolaser™ Crystal measures the microstructure evolution of samples by detecting phase transitions and molecular movements under thermal ramping conditions. Diffusing Wave Spectroscopy is utilized to detect melting, cry...view more
A new device from Formulaction, the Rheolaser™ Crystal measures the microstructure evolution of samples by detecting phase transitions and molecular movements under thermal ramping conditions. Diffusing Wave Spectroscopy is utilized to detect melting, crystallization and polymorphic transitions in bulk samples with the click of a button. This thermal analysis technique excels when measuring samples with delicate microstructures or in cases where typical thermal analysis techniques fail. view less
The Rheolaser™ Master uses Diffusing Wave Spectroscopy in order to characterize the viscoelastic nature of concentrated samples in a native state. This non-invasive technique can allow for the determination of viscosity and elasticity profiles as well as ...view more
The Rheolaser™ Master uses Diffusing Wave Spectroscopy in order to characterize the viscoelastic nature of concentrated samples in a native state. This non-invasive technique can allow for the determination of viscosity and elasticity profiles as well as accurate gel point determination. view less
The Turbiscan™ AGS integrates the Turbiscan™ LAB stability analyzer to an autosampling robot capable of analyzing up to 54 samples with three different temperature chambers operating from RT to 60 degrees C.
The Turbiscan™ LAB can quantify and predict the stability of concentrated systems such as emulsions, dispersions and foams. A non-invasive Multiple Light Scattering (MLS) technique is employed to determine the intensity of particle migration kinetics (sed...view more
The Turbiscan™ LAB can quantify and predict the stability of concentrated systems such as emulsions, dispersions and foams. A non-invasive Multiple Light Scattering (MLS) technique is employed to determine the intensity of particle migration kinetics (sedimentation, creaming, clarification) and particle size change kinetics (flocculation, coalescence, packing) as well as phase thickness growth. Analysis can be performed from RT to 60 degrees C on samples up to 95% concentration. view less
Turbiscan™ Online and Turbiscan™ Online+ to monitor on-line and in real time the physical properties of liquid dispersions: diameter and concentration.
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