Determination of Nitrogen in Plastics
Applications | 2023 | LECOInstrumentation
The determination of nitrogen content in plastics is critical for controlling product quality and material properties across packaging, automotive, medical devices and insulation sectors. Accurate nitrogen analysis supports compliance with performance specifications, helps optimize formulations and ensures material consistency during manufacturing processes.
This application note presents an automated Dumas combustion method for rapid and precise determination of total nitrogen in plastic samples using the LECO FP928. It aims to replace time‐consuming Kjeldahl digestion with a five‐minute, reagent‐free analysis suited for routine quality control in the plastics industry.
Sample masses of approximately 1.0 g are introduced into ceramic or nickel boats. After adding water to minimize sooting, samples undergo high‐temperature combustion (800 °C) in a pure oxygen atmosphere. Combustion gases are dried via a thermoelectric cooler, reduced in a copper‐packed tube to convert NOx to N₂, and a defined aliquot is carried by an inert gas (preferably helium) through a thermal conductivity detector. Calibration, blanking and drift correction procedures ensure accuracy at low ppm levels.
Typical analyses of polypropylene, high-density polyethylene and polyethylene terephthalate yielded average nitrogen contents of 0.019 %, 0.011 % and 0.014 %, respectively, with standard deviations below 0.004 %. The method demonstrates high sensitivity and precision, particularly when using a 10 cm³ aliquot loop and helium carrier gas. Careful control of sample mass, water addition and routine maintenance (filter tube replacement) minimizes sooting and ensures reliable long-term performance.
Advances in detector design and data processing may further enhance sensitivity and reduce maintenance. Integration with inline process analyzers could enable real-time monitoring of nitrogen levels in manufacturing lines. Potential extensions include adaptation to halogenated polymers, microplastic characterization and coupling with chemometric tools for formulation optimization.
The LECO FP928 Dumas combustion method offers a fast, accurate and solvent-free solution for total nitrogen determination in plastics. Its automation, low detection limits and minimal sample preparation make it an effective tool for routine quality control in a variety of polymer industries.
LECO Corporation, Application Note – Determination of Nitrogen in Plastics, Form No. 203-821-669, April 2023
Elemental Analysis
IndustriesMaterials Testing, Energy & Chemicals
ManufacturerLECO
Summary
Importance of the topic
The determination of nitrogen content in plastics is critical for controlling product quality and material properties across packaging, automotive, medical devices and insulation sectors. Accurate nitrogen analysis supports compliance with performance specifications, helps optimize formulations and ensures material consistency during manufacturing processes.
Objectives and article overview
This application note presents an automated Dumas combustion method for rapid and precise determination of total nitrogen in plastic samples using the LECO FP928. It aims to replace time‐consuming Kjeldahl digestion with a five‐minute, reagent‐free analysis suited for routine quality control in the plastics industry.
Methodology
Sample masses of approximately 1.0 g are introduced into ceramic or nickel boats. After adding water to minimize sooting, samples undergo high‐temperature combustion (800 °C) in a pure oxygen atmosphere. Combustion gases are dried via a thermoelectric cooler, reduced in a copper‐packed tube to convert NOx to N₂, and a defined aliquot is carried by an inert gas (preferably helium) through a thermal conductivity detector. Calibration, blanking and drift correction procedures ensure accuracy at low ppm levels.
Used instrumentation
- LECO FP928 macro nitrogen determinator with horizontal ceramic furnace
- Ceramic combustion boats (528-203) and nickel liners (502-343 or 625-505-430)
- Pure oxygen supply for combustion and helium carrier gas
- Thermoelectric cooler for moisture removal
- Reduction tube packed with copper
- Automated autosampler and analytical balance
Main results and discussion
Typical analyses of polypropylene, high-density polyethylene and polyethylene terephthalate yielded average nitrogen contents of 0.019 %, 0.011 % and 0.014 %, respectively, with standard deviations below 0.004 %. The method demonstrates high sensitivity and precision, particularly when using a 10 cm³ aliquot loop and helium carrier gas. Careful control of sample mass, water addition and routine maintenance (filter tube replacement) minimizes sooting and ensures reliable long-term performance.
Benefits and practical applications
- Rapid analysis (~5 minutes) supports high sample throughput
- No hazardous chemicals or lengthy sample digestion required
- Low detection limits suitable for trace nitrogen in polymers
- Automated operation simplifies routine quality control
- Applicable to a wide range of plastic matrices
Future trends and possibilities
Advances in detector design and data processing may further enhance sensitivity and reduce maintenance. Integration with inline process analyzers could enable real-time monitoring of nitrogen levels in manufacturing lines. Potential extensions include adaptation to halogenated polymers, microplastic characterization and coupling with chemometric tools for formulation optimization.
Conclusion
The LECO FP928 Dumas combustion method offers a fast, accurate and solvent-free solution for total nitrogen determination in plastics. Its automation, low detection limits and minimal sample preparation make it an effective tool for routine quality control in a variety of polymer industries.
References
LECO Corporation, Application Note – Determination of Nitrogen in Plastics, Form No. 203-821-669, April 2023
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