Aluminiomu bankanje yoo kan pataki ipa ninu awọn ikole ti lithium-ion batiri. Nibẹ ni o wa ọpọlọpọ awọn awoṣe ninu awọn 1000-8000 jara alloys ti o le ṣee lo ni batiri gbóògì.
Bakanna aluminiomu mimọ: Faili aluminiomu mimọ ti a lo nigbagbogbo ninu awọn batiri litiumu pẹlu ọpọlọpọ awọn onipò alloy gẹgẹbi 1060, 1050, 1145, ati 1235. Awọn foils wọnyi nigbagbogbo wa ni awọn ipinlẹ oriṣiriṣi bii O, H14, H18, H24, H22.
Paapa alloy 1145. The alloy is known for its high electrical conductivity, low impurity content and good formability, making it suitable for use as a current collector in batteries.
Other aluminum alloys that can be used in battery applications include the 3xxx series of alloys, bi eleyi 3003 ati 3104, which offer a balance of strength and formability. Additionally, some battery manufacturers may use 8xxx series alloys to meet specific performance requirements.
Aluminum-silicon alloy foil: Aluminum foil containing silicon alloy is a promising anode material for next-generation lithium-ion batteries. They offer a balance between low cost, environmental friendliness and high performance.
Researchers found that aluminum foil anodes exhibit higher performance and stability in solid-state batteries compared to traditional lithium-ion batteries. Overall, the selection of aluminum alloys for battery applications depends on factors such as conductivity, formability, strength and cost considerations.
