Cobalt content, solids content, specific gravity, and viscosity in cobalt octoate
Applications | | MetrohmInstrumentation
Quality control of paint driers is vital in the coatings industry, as these additives influence drying time, gloss and clarity. Traditional ASTM reference methods require separate instruments for metal content, solids, density and viscosity. Vis-NIR spectroscopy offers a rapid, non-destructive approach to measure all key parameters in a single analysis.
This study demonstrates the feasibility of using a Metrohm Vis-NIR analyzer to simultaneously quantify cobalt content, solids fraction, specific gravity and viscosity in cobalt octoate samples. The goal is to develop robust chemometric models that meet quality assurance requirements.
Instrumentation:
Vis-NIR spectroscopy consolidates multiple ASTM-referenced analyses into a single measurement, reducing analysis time, labor and instrument footprint. This method supports raw material screening and final product QC in paint manufacturing.
The Metrohm Vis-NIR approach using an extended 400–2500 nm wavelength range enables accurate, simultaneous determination of cobalt content, solids, density and viscosity in paint driers. This streamlined method meets industry precision requirements and enhances QC efficiency.
NIR Spectroscopy
IndustriesMaterials Testing
ManufacturerMetrohm
Summary
Significance of the Topic
Quality control of paint driers is vital in the coatings industry, as these additives influence drying time, gloss and clarity. Traditional ASTM reference methods require separate instruments for metal content, solids, density and viscosity. Vis-NIR spectroscopy offers a rapid, non-destructive approach to measure all key parameters in a single analysis.
Objectives and Study Overview
This study demonstrates the feasibility of using a Metrohm Vis-NIR analyzer to simultaneously quantify cobalt content, solids fraction, specific gravity and viscosity in cobalt octoate samples. The goal is to develop robust chemometric models that meet quality assurance requirements.
Methodology and Instrumentation
- Sample preparation: Five cobalt octoate standards (4–12% Co) diluted to a total of 17 calibration samples.
- Spectral acquisition: Transmission spectra from 400 to 2500 nm using the NIRS XDS RapidLiquid Analyzer with a 1 mm quartz cuvette.
- Pre-treatment: Standard Normal Variate (SNV) and baseline correction to remove scattering effects.
- Calibration: Partial Least Squares (PLS) regression with leave-one-out cross validation for each parameter.
- Reference methods: Cu-ISE titration for cobalt; ASTM D2373, D1644, D5125 and D2196 for solids, density and viscosity.
Instrumentation:
- Metrohm NIRS XDS RapidLiquid Analyzer (code 2.921.1410)
- 12.5 mm quartz cuvette, 1 mm path length (code 6.7401.200)
- Spacer for 12.5 mm cuvettes (code 6.7403.180)
- Vision Air 2.0 software (code 6.6072.208)
Main Results and Discussion
- Cobalt content: Visible range (400–800 nm) yielded R²=0.999, SEC=0.08%, SECV=0.09% for 4–12% Co.
- Solids content: NIR range (800–2500 nm) achieved R²=0.999, SEC=0.24%, SECV=0.29% over 33–67.5% solids.
- Specific gravity: Calibration for 0.89–1.00 range gave R²=0.997, SEC=0.003, SECV=0.003.
- Viscosity: Model with four PLS factors for 80–800 mPas showed R²=0.999, SEC=9.3 mPas, SECV=10.9 mPas.
- Comparison of spectral regions confirms the visible region is critical for metal quantification, while the NIR region effectively predicts physical properties.
Benefits and Practical Applications
Vis-NIR spectroscopy consolidates multiple ASTM-referenced analyses into a single measurement, reducing analysis time, labor and instrument footprint. This method supports raw material screening and final product QC in paint manufacturing.
Future Trends and Potential Applications
- Extension to other metal-based drying agents and pigment additives.
- Integration into on-line and at-line monitoring systems for real-time QC.
- Advanced chemometric algorithms for enhanced robustness and sensitivity.
- Standardization of Vis-NIR methods within industrial quality guidelines.
Conclusion
The Metrohm Vis-NIR approach using an extended 400–2500 nm wavelength range enables accurate, simultaneous determination of cobalt content, solids, density and viscosity in paint driers. This streamlined method meets industry precision requirements and enhances QC efficiency.
Reference
- NIR Application Note NIR-33, Metrohm.
- ASTM Standards: D2373, D1644, D5125, D2196, D6122.
- Cu-ISE titration methodology (Metrohm AW TI CH1-1160-012014).
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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