Ko ēhea konumohe konumohe koranu ka taea te whakamahi i roto i nga pākahiko?

Ko ēhea konumohe konumohe koranu ka taea te whakamahi i roto i nga pākahiko?

Ko te konumohe konumohe he mahi nui ki te hanga i nga pākahiko lithium-ion. He maha nga tauira kei roto i te 1000-8000 koranu raupapa e taea te whakamahi i roto i te hanga pākahiko.

Pepa konumohe parakore: Ko te pepa konumohe parakore e whakamahia nuitia ana i roto i nga pākahiko lithium he maha nga tohu koranu penei i te 1060, 1050, 1145, a 1235.
Ko enei pepa kei te nuinga o nga waahi rereke penei i a O, H14, H18, H24, H22.

Ina koa koranu 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, penei 3003 a 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, te hangai, strength and cost considerations.