Thermax® N990/N991 Ultra Pure can be used in the production of metal carbides to minimize impurities, enhance density, and improve final product properties.
Continue readingMetal Carbide
Thermogravimetric Analysis of N991
Thermogravimetric analysis (TGA) is carried out on N991 and N991UP samples under isothermal conditions.
Continue readingThermal Conductivity of N991
The thermal conductivity of N991 versus temperature at different packing densities is measured. Also, the high temperature thermal conductivity is measured using LFA.
Continue readingConcrete Colourant III
Carbocolor® is compared to black iron oxide in concrete specimens and displays stronger tinting strength and excellent weathering.
Continue readingConcrete Colourant II
Carbocolor® is utilized as a concrete pigment offering higher tint strength and better weathering resistance than iron oxide.
Continue readingConcrete Colourant I
Carbocolor® is utilized as a concrete pigment offering higher tint strength and better UV light resistance than iron oxide and less particle migration and better durability than other carbon blacks.
Continue readingTaphole Clay
Thermax® N990 replaced graphite in a taphole clay composition resulting in decreased porosity and increased cold crushing strength.
Continue readingBasic Carbon Refractories II
The advantages of using Thermax® N990 in basic carbon refractories are discussed along with SEM, TGA, and ESCA results which illustrate the beneficial properties of N990.
Continue readingBasic Carbon Refractories I
The advantages of using Thermax® N990 in basic carbon refractories, including increased residual carbon content and improvements in thermal and chemical resistance, are discussed.
Continue readingButyl Tire Curing Bladder
Thermax® N990 replaced N330 in a Butyl tire curing bladder compound leading to improved processing properties and an increase in thermal conductivity.
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