Soluciones LECO para Análisis elemental

Designed for Análisis elemental

Serie 736

Serie 736

Análisis de fusión de gases inertes de oxígeno y nitrógeno

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Serie 744

Serie 744

Análisis por combustión de Carbono y Azufre

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Serie 828

Serie 828

Análisis de Macrocombustión para el Analizador de Carbono, Hidrógeno, Nitrógeno y Proteínas

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Serie 832

Serie 832

Análisis por combustión para determinación de Azufre y Carbono

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Serie 836

Serie 836

Análisis Elemental para la detección de Oxígeno, Nitrógeno e Hidrógeno

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Serie 844

Serie 844

Análisis por combustión de Carbono y Azufre

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Serie 928

Serie 928

Determinación macro a través de la combustión

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DH603

DH603

Determinación de Hidrógeno residual y difusible por extracción en caliente

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GDS900

GDS900

Espectrómetro de emisión atómica de descarga luminiscente

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GDS950

GDS950

Espectrómetro de emisión atómica de descarga luminiscente con rango ampliado

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RC612

RC612

Determinación Multifase de Carbono y de Agua

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TruSpec Micro

TruSpec Micro

CHN/CHNS/O

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Hornos tubulares

Hornos tubulares

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Notas de aplicación de

Obtenga más información sobre nuestras soluciones para Análisis elemental con nuestra biblioteca de notas de aplicación relacionadas.

  • Determination of Sulfur and Carbon in Lithium, Nickel, Magnesium, and Cobalt Battery Materials

    Carbon determination in Li-NMC is important as the Carbon content directly impacts the performance of this battery material. In addition, emerging battery technologies can take advantage of improved Sulfur utilization when Li-NMC is used as an additive, making Sulfur determination in the base material an important quality control procedure.

  • Determination of Carbon and Sulfur in Lithium Iron Phosphate Battery Materials

    Carbon determination in LiFePO4 is important as the Carbon content directly impacts the performance of this battery material. In addition, emerging battery technologies can take advantage of improved Sulfur utilization when LiFePO4 is used as an additive, making Sulfur determination in the base material an important quality control procedure.

  • Determination of Sulfur and Carbon in Lithium Iron Phosphate Battery Materials

    Carbon determination in Lithium Iron Phosphate is important as the Carbon content directly impacts the performance of this battery material. In addition, emerging battery technologies can take advantage of improved Sulfur utilization when LiFePO4 is used as an additive, making Sulfur determination in the base material an important quality control parameter.

  • Determination of Nitrogen in Plastics

    The determination of Nitrogen is crucial in the material characterization and quality control procedures for the manufacturing and molding process of plastic materials. The LECO FP928 is a Nitrogen determinator that utilizes an automated Dumas combustion method and provides accurate and precise results in approximately five minutes. This eliminates involved sample preparation and the use of hazardous materials resulting in a cost-effective method for the quality control of plastic production.

  • Determination of Carbon and Sulfur in Lithium Iron Phosphate Battery Materials

    Carbon determination in Lithium Iron Phosphate is important as the Carbon content directly impacts the performance of this battery material. In addition, emerging battery technologies can take advantage of improved Sulfur utilization when LiFePO4 is used as an additive, making Sulfur determination in the base material an important quality control parameter.

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