Battery shell aluminum foil plays a pivotal role in modern battery technology, particularly in lithium-ion batteries, nickel-metal hydride batteries, and other high-performance energy storage systems.

Where to Use Aluminum Foil for Battery Cases
He̲'mi aluminio is employed in the construction of battery cases for:
- Lithium-ion Batteries: For their lightweight, high energy density, and flexibility.
- Nickel-Metal Hydride Batteries: Offering a robust alternative for applications requiring high discharge rates.
- Other Battery Types: Including pouch batteries and square battery casings.
The foil serves as a protective layer within the battery casing, preventing the ingress of moisture and oxygen, which could degrade battery performance over time.
Why Use Aluminum Foil for Battery Cases?
- Resistencia ar corrosión: Aluminum naturally forms an oxide layer, providing excellent resistance to corrosion, which is crucial for maintaining the integrity of the battery case.
- Conductividad: Aluminum’s high electrical conductivity ensures efficient current flow, Mejorar ar rendimiento ar bateriya.
- Ligero ne dúctil: Its properties allow for easy shaping and forming, accommodating various battery designs.
- Thermal Management: Aluminum helps in dissipating heat, preventing overheating and ensuring safety and longevity.
Types of Battery Aluminum Foil
Here are some common types of aluminum foil used in batteries:
- He̲'mi aluminio liso: High-purity, uncoated foil for basic conductivity and mechanical support.
- He̲'mi aluminio recubierto: Enhanced with coatings like carbon or polymer for improved conductivity, adhesión, and chemical stability.
- Textured Aluminum Foil: Features a textured surface to increase the electrochemical reaction area, improving battery capacity.
- Ultra-Thin Aluminum Foil: For lightweight and flexible batteries, with thicknesses as low as a few micrometers.
- He̲'mi aluminio laminado: Multiple layers bonded for enhanced strength and resistance to mechanical damage.

Comparison of Aluminum Foil Alloys:
| Aleación |
Atemperar |
Resistencia ar tracción (Mpa) |
Alargamiento (%) |
Mpumbuni espesor (milímetro) |
| 1235 |
H18 |
170-200 |
≥1.2 |
±3% |
| 1060 |
H18 |
165-190 |
≥1.2 |
±3% |
| 1070 |
H18 |
≥180 |
≥1.2 |
±3% |
Advantages of Battery Aluminum Foil
- Excellent Physical Properties: High conductivity and corrosion resistance extend battery life.
- Soft and Easy to Process: Simplifies electrode manufacturing, reducing costs.
- Protects Current Collectors: Enhances battery stability by preventing mechanical and chemical damage.
Mechanical Properties and Electrical Resistance
- Resistencia ar tracción: Varies by alloy and temper, typically ranging from 150 Pa 200 N/mm².
- Alargamiento: Ensures flexibility and resistance to breakage.
- Electrical Resistance: Decreases with increasing thickness, Ar 0.55 Ω.m at 0.0060 mm 'na 0.25 Ω.m at 0.16 milímetro.
Mexa: Electrical Resistance by Thickness
| Espesor (milímetro) |
Resistencia (Ω.m) |
| 0.0060 |
0.55 |
| 0.0070 |
0.51 |
| 0.0080 |
0.43 |
| 0.0090 |
0.36 |
| 0.010 |
0.32 |
| 0.11 |
0.28 |
| 0.16 |
0.25 |
Quality Requirements for Battery-Grade Aluminum Foil
- Surface Uniformity, Limpieza, and Smoothness: Ensures optimal performance and longevity.
- No Rolling Defects: Prevents issues like creases and stains that could impact battery life.
- Consistent Color: Prevents variations that might affect battery consistency.
- No Oil Contamination or Stains: Maintains cleanliness for optimal performance.

Manufacturing Process of Battery Aluminum Foil
- Fundición: Aluminum is melted and cast into blocks or logs.
- Laminación jar mpa: Reduces thickness at high temperatures.
- Laminación jar ntse̲: Further reduces thickness at room temperature.
- Recocido: Enhances flexibility and strength.
- Acabado: Trimming, Ár nt'ot'e superficial, and quality control.
- Ts'ut'ubi longitudinal ne embalaje: Prepares the foil for distribution.
Frequently Asked Questions about Battery Case Aluminum Foil
- Can any aluminum foil be used for battery cases? Hi'nä, specific alloys and specifications are required for optimal performance.
- How does aluminum foil contribute to battery safety? By providing corrosion resistance, aiding in thermal management, and ensuring consistent conductivity.
- What should I do if I notice corrosion on the aluminum foil? Investigate the root cause and consider using more resistant alloys or protective coatings.
HMUNTS'UJE productos ar he̲'mi aluminio ar utilizan ja 'nar nt'ot'e ho 'bui ndunthe ya variedad industrias ne aplicaciones, incluido ar embalaje, automotor, nju̲ts'i, Electrónica ne hogar. Nuya gehya 'ra ya ejemplos aplicaciones:

Ya aplicaciones ar he̲'mi aluminio

He̲'mi aluminio pa aislamiento térmico

conducto ar he̲'mi aluminio

Cinta ar he̲'mi aluminio

he̲'mi aluminio cachimba

he̲'mi aluminio pa xtä

He̲'mi aluminio pa envases flexibles nts'i

Proceso empaquetado rollos jumbo ar he̲'mi aluminio

Carga contenedores ja ar puerto