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The manufacturing of plastics and polymers can present challenges throughout the process, in areas as diverse as QA/QC verification, failure analysis, deformulation, or product development. Get help evaluating your challenging samples with this step-by-step analysis guide by finding your symptom and learning how to solve the problem – at any stage from sample prep to data analysis.
Improper additive formulation – excess or un-reacted additive
1. Scrape material from surface
2. Measure by single-bounce ATR
1. Search libraries to identify the unknown material
2. Adjust formulation based on identified material
Improper formulation: additives or fillers; contamination; poor mixing
1. Measure directly, or excise outer or inner material from sample
2. Measure using diamond ATR Mid-IR or Far-IR for inorganic fillers
1. Compare to reference part data and search libraries to identify differences
2. Change formulation if appropriate
Improper additive formulation or contamination
1. Wipe or scrape surface to isolate material, or perform direct analysis
2. Measure residue or sample surface on single bounce ATR
3. Measure reference part or sample with surface cut off
1. Search libraries to identify material
2. Adjust formulation or change process to avoid contamination
Poor processing, contamination
1. Isolate any included contaminants
2. Use sample cross-sectioning to view layers
3. Perform microscopic analysis:
a. FT-IR: ≥5 μm
b. Dispersive Raman: ≥1 μm
1. Search libraries to identify contamination
2. Change process to avoid contamination
Contamination: surface or embedded processing problem (trapped gas)
1. Isolate surface or embedded material
2. Measure using single-bounce Diamond, ZnSe or Ge* ATR
*Ge for carbon-filled polymers
1. Search libraries to identify contamination
2. Change process to avoid contamination
Oxidation, degradation, contaminant, incorrect material
1. Excise surface or inner material
2. Measure by single-bounce ATR
1. Compare to reference part
2. Identify unexpected components
3. Ensure material is correct for conditions; change formulation as needed
Crystallinity, structure, polymorphism, inorganic additives, degradation, contamination
Measure directly using Raman or single-bounce Diamond ATR in Far-IR range
1. Search libraries using spectral region search to identify components
2. Optimize formulation or manufacturing process
Improper formulation:
1. Measure directly using single-bounce Diamond, ZnSe or Ge* ATR
2. May require cutting away top surface to expose interior
*Ge for carbon-filled polymers
1. Calculate peak height or area ratio
2. Verify co-polymer ratios
3. Adjust formulation and check ratios routinely
Surface contamination
1. Extract contamination into solvent
2. Dry onto ATR crystal or IR window
3. Measure using transmission
1. Search libraries to identify contamination
2. Determine if polymer or formulation is appropriate for application
Improper formulation, incorrect processing conditions (if nothing found wrong with formulation)
1. Measure directly using single-bounce Diamond, ZnSe or Ge* ATR
2. May require cutting away top surface to expose interior
*Ge for carbon-filled polymers
1. Calculate peak height or area ratio
2. Verify co-polymer ratios
3. Adjust formulation and check ratios routinely
Wrong material or formulation, material failure, extreme use conditions
1. Measure directly using single-bounce Diamond, ZnSe or Ge* ATR
2. May require cutting away top surface to expose interior
3. Measure sample and reference part on TGA-IR
*Ge for carbon-filled polymers
1. Search libraries to identify material
2. Compare sample data to reference part data to identify differences
3. Change formulation if appropriate
Oxidation / Degradation / Contamination
1. Solvent extraction, evaporate solvent
2. Measure residue on ATR or IR window
3. Measure sample and reference part on TGA-IR
1. Search libraries to identify material or contamination
2. Compare sample data to reference part data to identify differences
3. Change formulation if appropriate
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