Main Quality Defects in Aluminum Foil Production and Their Causes

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During the rolling of strip into various aluminum foil semi-finished and finished products, as well as during finishing, annealing, slitting, transportation, and packaging processes, certain defects are unavoidable.

These defects mainly originate from two sources:

  • Ingot and strip-related defects: Metallurgical defects existing in cast ingots or cast-rolled strips. Some are exposed during casting or hot rolling, while others only appear during subsequent cold rolling or finishing processes.
  • Process-related defects: Generated during rolling, finishing, annealing, slitting, and packaging operations, typically associated with equipment condition, improper parameter adjustment, operational errors, or insufficient operator skill.

Common influencing factors include equipment malfunction, improper process control, unstable tension, lubrication system issues, and environmental contamination.

Major Aluminum Foil Quality Defects

1. Pinholes

Pinholes are irregular micro-holes visible under transmitted light and are the most typical defect in ultra-thin foil.

As thickness decreases, the number of pinholes increases significantly. Dust or particles around 6 μm entering the roll gap may cause pinholes.

It is practically impossible for 6 μm aluminum foil to be completely free of pinholes; evaluation is based on quantity and size.

Main Causes

  • High gas content in billet
  • Non-metallic inclusions
  • Composition segregation
  • Foreign particles
  • Contaminated rolling oil
  • Dust in environment

Improvement Measures

  • Strengthen melt purification and filtration
  • Control hydrogen content
  • Grain refinement
  • Improve billet metallurgical quality
  • Enhance oil filtration systems
  • Improve dust control
  • Apply high rolling force and low tension rolling

High-quality billets can achieve fewer than 100 pinholes per m² for 6 μm foil.

2. Roll Marks and Roll Pits

Roll marks: Periodically arranged imprints on foil surface.
Roll pits: Periodically arranged light-transmitting small holes, generally larger than pinholes.

Characteristics

  • Clear periodic distribution
  • Corresponding to roll rotation cycle

Causes

  • Improper roll grinding
  • Foreign object damage
  • Defective incoming material imprinting rolls
  • Roll fatigue
  • Roll slippage or collision

Control Measures

  • Improve roll grinding quality
  • Regular roll replacement
  • Maintain roll cleaner operation
  • Keep mill clean

3. Wrinkles and Creases

Wrinkling

Occurs when foil cannot be flattened due to poor flatness or insufficient tension during winding/unwinding.

Main causes

  • Improper roll profile
  • Poor flatness control
  • Insufficient tension
  • Inaccurate sleeve/core
  • Poor incoming strip flatness

Creases

Localized smooth grooves on foil surface.

Causes include

  • Excessive reduction
  • Insufficient tension
  • Uneven billet thickness
  • Inaccurate winding shaft

4. Bright Spots

Uneven bright spots appearing on the matte side during double rolling.

Causes

  • Insufficient oil film strength
  • Uneven roll roughness
  • Local embedment

Solutions

  • Proper double rolling oil
  • Uniform roll roughness
  • Controlled reduction

5. Thickness Deviation

Thickness control in foil rolling is more difficult than in sheet production.

Influencing factors

  • Temperature fluctuation
  • Oil film variation
  • Oil-air concentration
  • Tension and speed fluctuation
  • Gauge measurement errors

Control methods

  • Qualified billet thickness
  • Proper reduction and roll profile control
  • Stable process parameters
  • Frequent thickness monitoring
  • Reliable gauge system

Target: thickness deviation within ±3%.

6. Oil Stains

Excess oil remaining on foil surface after rolling.

Sources

  • Roll neck oil splash
  • Cleaner malfunction
  • Gauge head dripping
  • Lubricant contamination

Hazards

  • Affects decorative and packaging appearance
  • Causes blistering during annealing
  • Impacts printing and lamination

7. Oil Spots

Yellow-brown stains after annealing.

Causes

  • High oil viscosity
  • Lubricant contamination
  • Improper annealing
  • Excessive winding tension

8. Incomplete Degreasing

Water-brush test fails after annealing.

Causes

  • Excess oil
  • Excessive slitting tension
  • Improper annealing schedule

9. Vibration Marks

Periodic transverse waves.

Causes

  • Grinding-induced marks (10–20 mm pitch)
  • Oil film discontinuity vibration (5–10 mm pitch)

Root cause: insufficient oil film strength.

10. Tension Lines

Longitudinal parallel stripes when thickness <0.015 mm.

Characteristics

  • More obvious at lower tension
  • More likely in thinner foil
  • More frequent in double rolling

Improvement: increase tension and roll roughness.

11. Longitudinal Splitting

Natural longitudinal cracking.

Causes

  • Loose incoming strip
  • Improper roll profile
  • Gas channels
  • Insufficient back tension

Severe cases cause full coil rejection.

12. Gas Channels

Strip-shaped crushed zones with dense pinholes.

Main cause: insufficient melt degassing and high hydrogen content.

Low gas billets are critical.

13. Dark Streaks and Bright Lines

Dark Streaks

Longitudinal darker stripes affecting printing appearance.

Cause: billet longitudinal defects or roll imprint repetition.

Bright Lines

Longitudinal brighter stripes.

Cause: billet defects or roll surface scratches.

14. Metal and Non-metal Embedment

Foreign particles pressed into surface.

Causes

  • Dirty environment
  • Contaminated billet
  • Aluminum sticking to rolls

15. Scratches, Abrasion, Impact Damage

Related to sharp defects on equipment, improper tension, or improper handling.

16. Transverse Waves and Lines

Transverse Waves

Wave-like ridges due to unstable winding tension.

Transverse Lines

Regular fine white stripes caused by roll roughness or unstable oil film.

17. Sticking and Oil Adhesion

Sticking: sheets difficult to separate after annealing.
Oil adhesion: oxidized sticky residue after annealing.
Causes: improper annealing or oil properties.

18. Poor Flatness

Includes center wave, edge wave, composite wave, and quarter wave.

Causes

  • Poor incoming flatness
  • Unbalanced pressure
  • Improper reduction distribution
  • Roll profile issues

19. Bulging

Longitudinal raised strips.

Causes

  • Poor flatness control
  • Rapid annealing cooling

20. Folding Marks

Layered folded defects.

Causes

  • Low back tension
  • Uneven thickness
  • Previous pass wrinkling

21. Herringbone Pattern

Regular V-shaped surface pattern.

Causes

  • Excessive reduction
  • Frictional slippage
  • Improper oil characteristics

22. Burrs

Hair-like edge protrusions after slitting.

Causes

  • Dull blades
  • Improper blade gap

23. Winding Defects

Includes

  • Loose winding
  • Layer shifting
  • Telescoping
  • Edge lifting

Ideal winding condition: tight inside, slightly loose outside, stable tension gradient.

24. Surface Blisters

Irregular bulges after annealing.

Causes

  • Excessive annealing temperature
  • High hydrogen content

25. Corrosion

Chemical or electrochemical reaction causing surface damage.

Causes

  • Moisture exposure
  • Water in rolling oil
  • Damaged packaging
  • Improper storage

26. White Streaks

White longitudinal stripes, common in cast-rolled strip.

Causes

  • Ti/B segregation
  • Uneven cooling
  • Composition segregation