&Nbsp<
Introduction to the Lithium Iron Phosphate Calciner
Lithium Iron Phosphate Electrode Materials are mainly used in various lithium-ion batteries. After the NTT in Japan first exposed the olivine structure of AyMPO4 (A is an alkali metal, M is a combination of CoFe: LiFeCOPO4) as a lithium battery cathode material in 1996, John B Goodenough and other research groups also reported on the reversible migration of LiFePO4 into and out of lithium. The United States and Japan coincidentally published the olivine structure (LiMPO4), which attracted great attention and attracted widespread research and rapid development. Compared with traditional lithium-ion secondary battery cathode materials such as spinel structured LiMn2O4 and layered structured LiCoO2, LiMPO4 has a wider range of raw materials and a lower price&Nbsp; Laboratory furnace for lithium iron phosphate calcination furnace:
&Nbsp; The main purpose of the equipment is to calcine lithium iron phosphate powder under laboratory nitrogen protection conditions
&Nbsp&Nbsp; Furnace material: Made of mullite lightweight bricks
&Nbsp&Nbsp; Rated power: 20KW
&Nbsp&Nbsp; Number of temperature control points: 2
&Nbsp&Nbsp; Number of phases: 3 phases
&Nbsp&Nbsp; Instrument temperature control accuracy: ± 1.5 ℃ (after steady state)&Nbsp&Nbsp
&Nbsp&Nbsp; Heating element: Resistance wire rods arranged up and down, horizontally heated
&Nbsp&Nbsp; Temperature rise on the surface of the furnace sidewall: ≤ 40 ℃ (at the center of the outer surface of the decorative plate)
&Nbsp&Nbsp; Temperature control method: thyristor phase shift voltage regulation, intelligent instrument temperature control with program section
&Nbsp&Nbsp; Thermocouple: K graduation, 2 pieces
