Lab Lithium-ion Battery Slurry Resistivity for Battery R&D

Lab Lithium-ion Battery Slurry Resistivity for Battery R&D THE SIGNIFICANCE OF SLURRY RESISTIVITY The slurry is an important intermediate product in the production of lithium-ion batteries. The uniformity and stability of the slurry greatly affect the consistency and electrochemical performance of the final battery cell. The current method of monitoring slurry only has viscosity parameters, which cannot accurately evaluate the uniformity and stability of its electrical properties. However, the slurry conductivity parameters and slurry formulation, conductive agent type and content, binder type andcontent etc, which all have significant correlation to monitor the production of slurry, and the slurry may have gel sedimentation after dwelling for a period of time after mixing. At this time, the conductivity value will also show varying degrees of change. Therefore, the conductivity of the slurry can be used as a method to characterize the uniformity and stability of the electrical properties of the slurry. Monitoring the conductivity of the slurry, on the one hand, it can evaluate the influence of different active materials, conductive agents, binders, solid content, etc. on the electrochemical performance, for material evaluation and screening, on the other hand, it can also be used for process stability monitoring, which can quickly identify abnormalities in the mixing process, and avoid the waste of time and cost caused by defective products flowing into the subsequent process.   SLURRY RESISTIVITY TEST PRINCIPLE Test steps: Putting a certain volume of slurry (~80mL) into the measuring glass, inserting a clean electrode pen, start the software, start to test the changes in the slurry resistivity at the three pairs of electrodes over time and save it in the file. Test parameters: Resistivity, Temperature, Time Calculation formula: Resistivity (Ω*cm):ρe=U/I*S/l Character: 1. Separate the voltage and current lines, eliminate the influence of inductance on voltage measurement, and improve the accuracy of resistivity detection; 2. The disk electrode with a diameter of 10mm ensures a relatively large contact area with the sample and reduces the test error; 3. Real-time monitoring of changes in resistivity of the slurry at three positions in the vertical direction over time; Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement accuracy ±0.5%   SLURRY RESISTIVITY ANALYZER MSA Test program: Three operator, Three times Testing of each operater Test method: Deionized water was sonicated for 30 seconds, cleaned with deionized water,dried with dust-free paper, 5 sets of data were tested, and the fifth set of data was taken for GRR analysis.   APPLICATIONS   APPLICATION CASES 1.Evaluations of different viscosity in slurry resistivity   2. Evaluations of different dilution multiples in slurry resistivity   3. Evaluations of different dispersant in slurry resistivity  4. Gel sedimentation evaluations：Comparing different types of conductive agent PARAMETERS Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement resolution 0.01μS/cm Resistivity measurement accuracy ±0.5%   INSTALLATION REQUIREMENT Voltage 220-240V Voltage variation tolerance ±10% Power ＜80W Environmental temperature 0-40℃ Environmental humidity ＜80%RH Net wet 5kg Dimension(W*D*H) 210*300*120 mm

Lab Pouch Cell Battery Slurry Resistivity Meter

Lab Pouch Cell Battery Slurry Resistivity Meter THE SIGNIFICANCE OF SLURRY RESISTIVITY The slurry is an important intermediate product in the production of lithium-ion batteries. The uniformity and stability of the slurry greatly affect the consistency and electrochemical performance of the final battery cell. The current method of monitoring slurry only has viscosity parameters, which cannot accurately evaluate the uniformity and stability of its electrical properties. However, the slurry conductivity parameters and slurry formulation, conductive agent type and content, binder type andcontent etc, which all have significant correlation to monitor the production of slurry, and the slurry may have gel sedimentation after dwelling for a period of time after mixing. At this time, the conductivity value will also show varying degrees of change. Therefore, the conductivity of the slurry can be used as a method to characterize the uniformity and stability of the electrical properties of the slurry. Monitoring the conductivity of the slurry, on the one hand, it can evaluate the influence of different active materials, conductive agents, binders, solid content, etc. on the electrochemical performance, for material evaluation and screening, on the other hand, it can also be used for process stability monitoring, which can quickly identify abnormalities in the mixing process, and avoid the waste of time and cost caused by defective products flowing into the subsequent process.     SLURRY RESISTIVITY TEST PRINCIPLE Test steps: Putting a certain volume of slurry (~80mL) into the measuring glass, inserting a clean electrode pen, start the software, start to test the changes in the slurry resistivity at the three pairs of electrodes over time and save it in the file. Test parameters: Resistivity, Temperature, Time Calculation formula: Resistivity (Ω*cm):ρe=U/I*S/l Character: 1. Separate the voltage and current lines, eliminate the influence of inductance on voltage measurement, and improve the accuracy of resistivity detection; 2. The disk electrode with a diameter of 10mm ensures a relatively large contact area with the sample and reduces the test error; 3. Real-time monitoring of changes in resistivity of the slurry at three positions in the vertical direction over time; Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement accuracy ±0.5%   SLURRY RESISTIVITY ANALYZER MSA Test program: Three operator, Three times Testing of each operater Test method: Deionized water was sonicated for 30 seconds, cleaned with deionized water,dried with dust-free paper, 5 sets of data were tested, and the fifth set of data was taken for GRR analysis.     APPLICATIONS   APPLICATION CASES 1.Evaluations of different viscosity in slurry resistivity   2. Evaluations of different dilution multiples in slurry resistivity   3. Evaluations of different dispersant in slurry resistivity  4. Gel sedimentation evaluations：Comparing different types of conductive agent PARAMETERS Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement resolution 0.01μS/cm Resistivity measurement accuracy ±0.5%   INSTALLATION REQUIREMENT Voltage 220-240V Voltage variation tolerance ±10% Power ＜80W Environmental temperature 0-40℃ Environmental humidity ＜80%RH Net wet 5kg Dimension(W*D*H) 210*300*120 mm  

Battery Slurry Resistivity Tester For Cylindrical Cell R&D

Battery Slurry Resistivity Tester For Cylindrical Cell R&D THE SIGNIFICANCE OF SLURRY RESISTIVITY The slurry is an important intermediate product in the production of lithium-ion batteries. The uniformity and stability of the slurry greatly affect the consistency and electrochemical performance of the final battery cell. The current method of monitoring slurry only has viscosity parameters, which cannot accurately evaluate the uniformity and stability of its electrical properties. However, the slurry conductivity parameters and slurry formulation, conductive agent type and content, binder type andcontent etc, which all have significant correlation to monitor the production of slurry, and the slurry may have gel sedimentation after dwelling for a period of time after mixing. At this time, the conductivity value will also show varying degrees of change. Therefore, the conductivity of the slurry can be used as a method to characterize the uniformity and stability of the electrical properties of the slurry. Monitoring the conductivity of the slurry, on the one hand, it can evaluate the influence of different active materials, conductive agents, binders, solid content, etc. on the electrochemical performance, for material evaluation and screening, on the other hand, it can also be used for process stability monitoring, which can quickly identify abnormalities in the mixing process, and avoid the waste of time and cost caused by defective products flowing into the subsequent process.     SLURRY RESISTIVITY TEST PRINCIPLE Test steps: Putting a certain volume of slurry (~80mL) into the measuring glass, inserting a clean electrode pen, start the software, start to test the changes in the slurry resistivity at the three pairs of electrodes over time and save it in the file. Test parameters: Resistivity, Temperature, Time Calculation formula: Resistivity (Ω*cm):ρe=U/I*S/l Character: 1. Separate the voltage and current lines, eliminate the influence of inductance on voltage measurement, and improve the accuracy of resistivity detection; 2. The disk electrode with a diameter of 10mm ensures a relatively large contact area with the sample and reduces the test error; 3. Real-time monitoring of changes in resistivity of the slurry at three positions in the vertical direction over time; Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement accuracy ±0.5%   SLURRY RESISTIVITY ANALYZER MSA Test program: Three operator, Three times Testing of each operater Test method: Deionized water was sonicated for 30 seconds, cleaned with deionized water,dried with dust-free paper, 5 sets of data were tested, and the fifth set of data was taken for GRR analysis.     APPLICATIONS   APPLICATION CASES 1.Evaluations of different viscosity in slurry resistivity   2. Evaluations of different dilution multiples in slurry resistivity   3. Evaluations of different dispersant in slurry resistivity  4. Gel sedimentation evaluations：Comparing different types of conductive agent PARAMETERS Resistivity measurement range 2.5Ω*cm-50mΩ*cm Resistivity measurement resolution 0.01μS/cm Resistivity measurement accuracy ±0.5%   INSTALLATION REQUIREMENT Voltage 220-240V Voltage variation tolerance ±10% Power ＜80W Environmental temperature 0-40℃ Environmental humidity ＜80%RH Net wet 5kg Dimension(W*D*H) 210*300*120 mm