1050 Aluminum Foil: Aluminum content is ≥99.5%, belonging to basic high-purity pure aluminum, with no additional alloying elements added, resulting in a simpler composition.
1060 Aluminium Foil: Aluminum content is ≥99.6%, purity slightly higher than 1050 alloy, and it contains trace amounts of copper, achieving performance upgrades through minor composition adjustments.
1050 Aluminum Foil: Tensile strength range is 70-130MPa, with moderate ductility; its core advantage is controllable cost, balanced electrical and thermal conductivity, meeting basic application requirements.
1060 Aluminum Foil: It has higher upper limit of tensile strength (70-180MPa), yield strength significantly better than 1050; its core advantages are superior formability, stronger corrosion resistance, and excellent surface smoothness and quality, suitable for high-requirement applications.
1050 Aluminum Foil: It requires no complex alloy formulation required, simplifying the production process, lower technological threshold, suitable for large-scale, low-cost mass production.
1060 Aluminum Foil: It requires additional heat treatment, stricter control over thickness tolerances, more refined production processes, and relatively higher costs.
1050 Aluminum Foil: It focuses on basic, essential applications, such as electrolytic capacitor substrates (0.006-0.2mm), aluminum can bodies/ordinary aluminum foil bags (0.01-0.1mm), automotive heat shields (0.8mm), and small chemical storage tanks (5-20mm), emphasizing cost-effectiveness.
1060 Aluminum Foil: It primarily targets mid-to-high-end applications, such as precision packaging for cosmetics/pharmaceuticals (relying on ductility and barrier properties), lithium battery current collectors (requiring both conductivity and heat dissipation), and building energy-saving insulation rolls (low radiation + waterproofing), emphasizing performance adaptability.
In the global lithium-ion battery aluminum foil market, there is a clear market share gap between 1060 and 1050 aluminum foil:
Data from 2023 shows that 1060 aluminum foil ranked second with a 30% share, and its market size is projected to reach $491 million in 2025 and surge to $2.73 billion in 2034, representing a CAGR of 20.8%; 1050 aluminum foil follows closely with a 20% share, and its market size grew from $327 million to $1.815 billion during the same period, a growth rate of 20.6%.
This gap stems from the difference in value of application scenarios: 1060 aluminum foil dominates the new energy and high-end electronics market, with demand surging due to the global popularization of electric vehicles; 1050 aluminum foil covers traditional packaging and general industrial fields, where market demand is stable but growth is relatively slow.
For scenarios such as food packaging and general cable shielding where performance requirements are not extreme, the aluminium 1050 price advantage is significant.
In fields such as lithium batteries, precision electronics, and high-end packaging, 1060 alloy’s superior formability and stability are paramount.
For thickness requirements, 1060 aluminum foil is recommended for ultra-thin foils (<10μm), while for standard thicknesses (10-12μm), either 1050 or 1060 foil can be chosen based on specific needs.