Now, when people buy new energy vehicles, they have to choose between two technologies: lithium iron phosphate battery and ternary lithium battery. Industry insiders tell us: choose the ternary system that pays attention to battery life and lightweight vehicles. Lithium iron phosphate series with emphasis on safety.
Now, when people buy new energy vehicles, they have to choose between two technologies: lithium iron phosphate battery and ternary lithium battery. Industry insiders tell us: choose the ternary system that pays attention to battery life and lightweight vehicles. Lithium iron phosphate series with emphasis on safety. In this regard, consumers eagerly hope that industry insiders can give a practical answer from a technical point of view: Is lithium iron phosphate battery safe? This question needs to be answered from three aspects: material/structural stability, production process, and charge-discharge characteristics.Also read:48v lithium ion battery 200ah
- Lithium iron phosphate is the safest cathode material for lithium-ion batteries at present. It does not contain any heavy metal elements that are harmful to the human body. It is difficult to precipitate oxygen in its olivine structure, which improves the stability of the material.
- The production process of lithium iron phosphate battery is basically the same as that of other lithium battery varieties. The core processes are: batching, coating, rolling, filming, and winding. In the batching process, the conductivity of lithium iron phosphate materials is relatively poor, so the particles are generally made smaller. The objective effect of this is that the internal arrangement is more uniform, which promotes the formation of a balanced voltage platform, which can be maintained during operation. The state of the battery is stable.Also read:catl lifepo4
- Charging and discharging are the two basic working states of lithium batteries. When the lithium iron phosphate battery is charged and discharged, due to the weak oxidation ability of iron ions, it will not release oxygen, so it is naturally difficult to have a redox reaction with the electrolyte, which makes the charging and discharging process of the lithium iron phosphate battery in a safe environment. Not only that, it is difficult for lithium iron phosphate batteries to undergo severe redox reactions during high-rate discharge or even overcharge and discharge. At the same time, after the lithium is deintercalated, the lattice change will reduce the final volume of the unit cell (the smallest constituent unit of the crystal), which just offsets the increased volume of the carbon negative electrode during the reaction. Therefore, during charging and discharging, the lithium iron phosphate battery The stability of the physical structure can be maintained, and the hidden danger of the battery bursting phenomenon caused by the increase in volume is eliminated.Also read:oem lifepo4 10kwh supplier
The battery safety mentioned above is explained by taking the monomer as an example for the sake of convenience. When put into use, the lithium iron phosphate battery needs to provide the rated voltage and capacity suitable for electrical appliances. At this time, the lithium iron phosphate battery needs to be The battery matching work, that is, the single lithium iron phosphate battery is equipped with a series/parallel/serial-parallel mode into a practical lithium battery pack. The most important thing to pay attention to in this matching work is the consistency of each single cell. Usually, it also has a balanced management system, which ensures the safety of the use of lithium batteries through the control of key parameters, which is a common feature of all kinds of lithium battery packs.