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powder-density-tester
  • Powder Compaction Density Measurement System Lab Powder Compaction Density Measurement System Tester For Lithium Battery Cycling Performance Testing

    Lab Powder Compaction Density Measurement System Tester For Lithium Battery Cycling Performance Testing  1.Background The compaction density of the powder materials is not only related to its particle size and distribution, but also closely effect the capacity, internal resistance and the cycling performance of the produced lithium-ion batteries (LIBs). Theoretically speaking, the higher the compaction density, the higher the capacity of the LIB can be. Therefore, the compaction density is used as one of the key indicators to evaluating the energy density of materials. The compaction density is closely related to the intercalation and deintercalation of lithium ions during the cycling. Appropriate compaction density can effectively increase the capacity of the LIB reduce internal resistance, reduce polarization loss, and prolong the overall service life of the battery. On the one hand, the measurement of powder compaction density can be used as an effective index to monitor the differences between batches of powder materials, and on the other hand, it can be used as an effective means of R&D material evaluation and process optimization   2.Creative Solution The integrated design of the pressure application and thickness measurement modules can measure the compaction density under different quantitative pressures in real time; Fully automatic measurement software system, multi-parameter synchronous acquisition, intelligent and efficient testing process; Various testing modes such as single point, variable pressure, pressurization, and pressure relief can be optional, and the performance of the powder material can be evaluated in an all-round way; Equipped with machine inspection standard parts, preprocessing equipment and automatic demoulding equipment to ensure stable testing and improve overall efficiency   3.Measurement System Analysis (MSA) 4. Application Cases ① Effective evaluation of the compaction density of positive and negative electrode powders and conductive ② Monitor the long-term stability of the compaction density of the material; ③ Realize the effective evaluation of material stress-strain performance; ④ Realize the effective evaluation of material compression rebound performance;   Application Case - Long-term Stability Evaluation of Nickel Cobalt Manganese Materials Parameters: 12MPa, 180MPa, hold pressure for 10s, test 3 groups every day, a total of 30 days of testing. Result analysis: The results of compaction density in 30 days are all less than ±3σ, and the long-term stability of the compaction density of this sample is good. Long-term stability of the compaction density of the sample can be monitored!   Application Case - Lithium Iron Phosphate Material Evaluation Parameters: 10-200MPa, sampling points at an interval of 20MPa, holding pressure for 10s, a total of 5 groups of tests. Result analysis: The COV of the compaction density of 5 groups under each pressure is less than 0.5%, and the data fluctuation range is less than 0.05g/cm3, indicating that the the repeatability of this equipmentis good. It can evaluate the real-time change trend of the compaction density of the material with the increase of the pressure!   Application Case-Lithium Cobalt Oxide Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, holding pressure for 10s, and tested 4 samples in total. Result analysis: The results show that the stress-strain curves of the four lithium cobalt oxide materials are different during the compression process, and the compression properties of the materials can be further evaluated in combination with the material particle size distribution. It can help R&D to evaluate the stress-strain performance of materials   Application Case-Graphite and Carbon Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, hold pressure for 10s, release pressure to 3MPa, hold pressure for 10s, test 4 samples in total. Result analysis: The results show that the thickness rebound of graphite and carbon materials during the process of pressurization and decompression are different, and the rebound of graphite material is greater than that of hard carbon. It can help research and development to evaluate the compression rebound performance of materials!   Parameters and installation requirements Model PCD1000 PCD2000 Max pressure 1000kg 5000kg Pressure measurement resolution/accuracy 0.1kg/±0.3%FS Thickness measurement range 0-8mm Thickness measurement resolution/accuracy 0.5um/±10um Maximum capacity that can be filled Φ13*8mm(can be customized) Power supply 200-240V/50-60Hz Voltage variation tolerance ±10% Power 450W 2100W Environment temperature 10-35C, 13mm*8mm(customizable) Environment humidity <80%RH(no condensation) Net weight 85kg 250kg Size W330*D402*H780mm W370*D565*H1200mm      

  • Powder Compaction Density Measurement System Lab Pouch Cell Raw Materials Tester Powder Compaction Density Measurement System

    Lab Pouch Cell Raw Materials Tester Powder Compaction Density Measurement System 1.Background The compaction density of the powder materials is not only related to its particle size and distribution, but also closely effect the capacity, internal resistance and the cycling performance of the produced lithium-ion batteries (LIBs). Theoretically speaking, the higher the compaction density, the higher the capacity of the LIB can be. Therefore, the compaction density is used as one of the key indicators to evaluating the energy density of materials. The compaction density is closely related to the intercalation and deintercalation of lithium ions during the cycling. Appropriate compaction density can effectively increase the capacity of the LIB reduce internal resistance, reduce polarization loss, and prolong the overall service life of the battery. On the one hand, the measurement of powder compaction density can be used as an effective index to monitor the differences between batches of powder materials, and on the other hand, it can be used as an effective means of R&D material evaluation and process optimization   2.Creative Solution The integrated design of the pressure application and thickness measurement modules can measure the compaction density under different quantitative pressures in real time; Fully automatic measurement software system, multi-parameter synchronous acquisition, intelligent and efficient testing process; Various testing modes such as single point, variable pressure, pressurization, and pressure relief can be optional, and the performance of the powder material can be evaluated in an all-round way; Equipped with machine inspection standard parts, preprocessing equipment and automatic demoulding equipment to ensure stable testing and improve overall efficiency   3.Measurement System Analysis (MSA) 4. Application Cases ① Effective evaluation of the compaction density of positive and negative electrode powders and conductive ② Monitor the long-term stability of the compaction density of the material; ③ Realize the effective evaluation of material stress-strain performance; ④ Realize the effective evaluation of material compression rebound performance;   Application Case - Long-term Stability Evaluation of Nickel Cobalt Manganese Materials Parameters: 12MPa, 180MPa, hold pressure for 10s, test 3 groups every day, a total of 30 days of testing. Result analysis: The results of compaction density in 30 days are all less than ±3σ, and the long-term stability of the compaction density of this sample is good. Long-term stability of the compaction density of the sample can be monitored!   Application Case - Lithium Iron Phosphate Material Evaluation Parameters: 10-200MPa, sampling points at an interval of 20MPa, holding pressure for 10s, a total of 5 groups of tests. Result analysis: The COV of the compaction density of 5 groups under each pressure is less than 0.5%, and the data fluctuation range is less than 0.05g/cm3, indicating that the the repeatability of this equipmentis good. It can evaluate the real-time change trend of the compaction density of the material with the increase of the pressure!   Application Case-Lithium Cobalt Oxide Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, holding pressure for 10s, and tested 4 samples in total. Result analysis: The results show that the stress-strain curves of the four lithium cobalt oxide materials are different during the compression process, and the compression properties of the materials can be further evaluated in combination with the material particle size distribution. It can help R&D to evaluate the stress-strain performance of materials   Application Case-Graphite and Carbon Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, hold pressure for 10s, release pressure to 3MPa, hold pressure for 10s, test 4 samples in total. Result analysis: The results show that the thickness rebound of graphite and carbon materials during the process of pressurization and decompression are different, and the rebound of graphite material is greater than that of hard carbon. It can help research and development to evaluate the compression rebound performance of materials!   Parameters and installation requirements Model PCD1000 PCD2000 Max pressure 1000kg 5000kg Pressure measurement resolution/accuracy 0.1kg/±0.3%FS Thickness measurement range 0-8mm Thickness measurement resolution/accuracy 0.5um/±10um Maximum capacity that can be filled Φ13*8mm(can be customized) Power supply 200-240V/50-60Hz Voltage variation tolerance ±10% Power 450W 2100W Environment temperature 10-35C, 13mm*8mm(customizable) Environment humidity <80%RH(no condensation) Net weight 85kg 250kg Size W330*D402*H780mm W370*D565*H1200mm        

  • Powder Compaction Density Analyzer Lab Powder Compaction Density Analyzer For Lithium Battery R&D

    Lab Powder Compaction Density Analyzer For Lithium Battery R&D 1.Background The compaction density of the powder materials is not only related to its particle size and distribution, but also closely effect the capacity, internal resistance and the cycling performance of the produced lithium-ion batteries (LIBs). Theoretically speaking, the higher the compaction density, the higher the capacity of the LIB can be. Therefore, the compaction density is used as one of the key indicators to evaluating the energy density of materials. The compaction density is closely related to the intercalation and deintercalation of lithium ions during the cycling. Appropriate compaction density can effectively increase the capacity of the LIB reduce internal resistance, reduce polarization loss, and prolong the overall service life of the battery. On the one hand, the measurement of powder compaction density can be used as an effective index to monitor the differences between batches of powder materials, and on the other hand, it can be used as an effective means of R&D material evaluation and process optimization   2.Creative Solution The integrated design of the pressure application and thickness measurement modules can measure the compaction density under different quantitative pressures in real time; Fully automatic measurement software system, multi-parameter synchronous acquisition, intelligent and efficient testing process; Various testing modes such as single point, variable pressure, pressurization, and pressure relief can be optional, and the performance of the powder material can be evaluated in an all-round way; Equipped with machine inspection standard parts, preprocessing equipment and automatic demoulding equipment to ensure stable testing and improve overall efficiency   3.Measurement System Analysis (MSA) 4. Application Cases ① Effective evaluation of the compaction density of positive and negative electrode powders and conductive ② Monitor the long-term stability of the compaction density of the material; ③ Realize the effective evaluation of material stress-strain performance; ④ Realize the effective evaluation of material compression rebound performance;   Application Case - Long-term Stability Evaluation of Nickel Cobalt Manganese Materials Parameters: 12MPa, 180MPa, hold pressure for 10s, test 3 groups every day, a total of 30 days of testing. Result analysis: The results of compaction density in 30 days are all less than ±3σ, and the long-term stability of the compaction density of this sample is good. Long-term stability of the compaction density of the sample can be monitored!   Application Case - Lithium Iron Phosphate Material Evaluation Parameters: 10-200MPa, sampling points at an interval of 20MPa, holding pressure for 10s, a total of 5 groups of tests. Result analysis: The COV of the compaction density of 5 groups under each pressure is less than 0.5%, and the data fluctuation range is less than 0.05g/cm3, indicating that the the repeatability of this equipmentis good. It can evaluate the real-time change trend of the compaction density of the material with the increase of the pressure!   Application Case-Lithium Cobalt Oxide Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, holding pressure for 10s, and tested 4 samples in total. Result analysis: The results show that the stress-strain curves of the four lithium cobalt oxide materials are different during the compression process, and the compression properties of the materials can be further evaluated in combination with the material particle size distribution. It can help R&D to evaluate the stress-strain performance of materials   Application Case-Graphite and Carbon Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, hold pressure for 10s, release pressure to 3MPa, hold pressure for 10s, test 4 samples in total. Result analysis: The results show that the thickness rebound of graphite and carbon materials during the process of pressurization and decompression are different, and the rebound of graphite material is greater than that of hard carbon. It can help research and development to evaluate the compression rebound performance of materials!   Parameters and installation requirements Model PCD1000 PCD2000 Max pressure 1000kg 5000kg Pressure measurement resolution/accuracy 0.1kg/±0.3%FS Thickness measurement range 0-8mm Thickness measurement resolution/accuracy 0.5um/±10um Maximum capacity that can be filled Φ13*8mm(can be customized) Power supply 200-240V/50-60Hz Voltage variation tolerance ±10% Power 450W 2100W Environment temperature 10-35C, 13mm*8mm(customizable) Environment humidity <80%RH(no condensation) Net weight 85kg 250kg Size W330*D402*H780mm W370*D565*H1200mm        

  • Powder Compaction Density Analyzer Lab Powder Compaction Density Analyzer For Lithium Battery R&D

    Lab Powder Compaction Density Analyzer For Lithium Battery R&D 1.Background The compaction density of the powder materials is not only related to its particle size and distribution, but also closely effect the capacity, internal resistance and the cycling performance of the produced lithium-ion batteries (LIBs). Theoretically speaking, the higher the compaction density, the higher the capacity of the LIB can be. Therefore, the compaction density is used as one of the key indicators to evaluating the energy density of materials. The compaction density is closely related to the intercalation and deintercalation of lithium ions during the cycling. Appropriate compaction density can effectively increase the capacity of the LIB reduce internal resistance, reduce polarization loss, and prolong the overall service life of the battery. On the one hand, the measurement of powder compaction density can be used as an effective index to monitor the differences between batches of powder materials, and on the other hand, it can be used as an effective means of R&D material evaluation and process optimization   2.Creative Solution The integrated design of the pressure application and thickness measurement modules can measure the compaction density under different quantitative pressures in real time; Fully automatic measurement software system, multi-parameter synchronous acquisition, intelligent and efficient testing process; Various testing modes such as single point, variable pressure, pressurization, and pressure relief can be optional, and the performance of the powder material can be evaluated in an all-round way; Equipped with machine inspection standard parts, preprocessing equipment and automatic demoulding equipment to ensure stable testing and improve overall efficiency   3.Measurement System Analysis (MSA) 4. Application Cases ① Effective evaluation of the compaction density of positive and negative electrode powders and conductive ② Monitor the long-term stability of the compaction density of the material; ③ Realize the effective evaluation of material stress-strain performance; ④ Realize the effective evaluation of material compression rebound performance;   Application Case - Long-term Stability Evaluation of Nickel Cobalt Manganese Materials Parameters: 12MPa, 180MPa, hold pressure for 10s, test 3 groups every day, a total of 30 days of testing. Result analysis: The results of compaction density in 30 days are all less than ±3σ, and the long-term stability of the compaction density of this sample is good. Long-term stability of the compaction density of the sample can be monitored!   Application Case - Lithium Iron Phosphate Material Evaluation Parameters: 10-200MPa, sampling points at an interval of 20MPa, holding pressure for 10s, a total of 5 groups of tests. Result analysis: The COV of the compaction density of 5 groups under each pressure is less than 0.5%, and the data fluctuation range is less than 0.05g/cm3, indicating that the the repeatability of this equipmentis good. It can evaluate the real-time change trend of the compaction density of the material with the increase of the pressure!   Application Case-Lithium Cobalt Oxide Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, holding pressure for 10s, and tested 4 samples in total. Result analysis: The results show that the stress-strain curves of the four lithium cobalt oxide materials are different during the compression process, and the compression properties of the materials can be further evaluated in combination with the material particle size distribution. It can help R&D to evaluate the stress-strain performance of materials   Application Case-Graphite and Carbon Material Evaluation Parameters: 10-200MPa, sampling points at intervals of 20MPa, hold pressure for 10s, release pressure to 3MPa, hold pressure for 10s, test 4 samples in total. Result analysis: The results show that the thickness rebound of graphite and carbon materials during the process of pressurization and decompression are different, and the rebound of graphite material is greater than that of hard carbon. It can help research and development to evaluate the compression rebound performance of materials!   Parameters and installation requirements Model PCD1000 PCD2000 Max pressure 1000kg 5000kg Pressure measurement resolution/accuracy 0.1kg/±0.3%FS Thickness measurement range 0-8mm Thickness measurement resolution/accuracy 0.5um/±10um Maximum capacity that can be filled Φ13*8mm(can be customized) Power supply 200-240V/50-60Hz Voltage variation tolerance ±10% Power 450W 2100W Environment temperature 10-35C, 13mm*8mm(customizable) Environment humidity <80%RH(no condensation) Net weight 85kg 250kg Size W330*D402*H780mm W370*D565*H1200mm        

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