Sodium Ion Battery Vacuum Mixer
2.Standard equip of biaxial planetary stirring structure, screw impeller, according to the size of mixing tank to configure the different mixing shafts and combination
3.Reverse and corotation mixing function design , can achieve high viscosity slurry make high speed mixing,have good mixing uniformity.4.Small size, can save space
5.Exquisite appearance, with three-dimensional geometric design, simple and beautiful6.Model:TOB-XJB-500
500ml Compact Laboratory Scale Planetary Vacuum Mixer FOR
TOB-XJB-500 Planetary vacuum mixer is one high efficiency equipment with vacuum molding and dispersion function,suitable for the battery lab research of anode and cathode electrode slurry mixing process , as well as for the powdered and ceramic material materials mixing.
1.Vacuum environment, can eliminate the bubbles generated in the mixing process effectively ,with vacuum system.
2.Standard equip of biaxial planetary stirring structure, screw impeller, according to the size of mixing tank to configure the different mixing shafts and combination .
3.Reverse and corotation mixing function design , can achieve high viscosity slurry make high speed mixing,have good mixing uniformity.
4.Multi speed operation can be carried out,you can set the speed and time of each stirring .
5.Bracket design, easy to operate, to ensure the safety of the vacuum mixing process
6.Small size, can save space
7.Exquisite appearance, with three-dimensional geometric design, simple and beautiful
| TOB-XJB-500 | |
| AC220V 50HZ/ 110V 60HZ | |
| 200W | |
| MAX600 rpm | |
| 500ml stainless steel vacuum mixing tank | |
| 0~600min can be set | |
| About 330m×320mm×570mm | |
| About 35kg | |
|
1 Built in vacuum pump, vacuum value -0.08Mpa. 2 Standard double screw propeller, others according to the design of tank. |
|
The manufacturing process of sodium-ion batteries mainly includes the following steps:
1.Preparation of electrolyte: The electrolyte of sodium-ion batteries mainly consists of positive electrodes (sodium), negative electrodes (positive oxide), electrolyte solution and solid electrolyte.
2.Preparation of positive and negative electrodes: The manufacturing process of sodium-ion batteries mainly includes electrochemical techniques, such as processing of electrode materials, surface treatment, layered structure optimization, etc. The processing and surface treatment of electrode materials are mainly to improve the stability and current output efficiency of the battery, while the layered structure optimization can increase the battery's power density. In addition, the electrode structure can also be optimized using non-discontinuous structures and symmetric shapes to enhance battery safety.
3.Assembly and packaging: The assembly of sodium-ion batteries mainly involves placing the electrode materials and electrolyte into a container, and then inserting vacuum-packed connectors into the semi-circular mouth of the container. Finally, the container is sealed by connecting the cover. In addition, the electrode materials and electrolyte also need to be packaged to protect them from moisture and oxides. The batteries can be packaged in a timely manner without being affected by these factors to ensure stable product quality. Finally, a circuit test is performed to ensure that the battery parameters meet the specified requirements and that the product is safe and reliable.
that the production line for sodium-ion batteries can be used alongside that for lithium-ion batteries without the need to reconstruct a new production line.
ISO 9001
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