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Structural Analysis of Lithium-Ion Rechargeable Compression Characteristics Evaluation of Particle Size Distribution Measurement of Cathode/Anode Active Materials
Battery Active Materials and Various Materials Anode Active Material Particles
SALD-7500 nano Nanoparticle Size Analyzer
XRD-6100 X-Ray Diffractometer MCT Series Micro Compression Testing Machines
This analyzer measures the distribution of particle
X-ray diffractometers are used in a wide range of This series of testing machines measures the size of cathode and anode active materials, for
fields related to new materials, ceramics, metals, pressure crack strength of individual example. It utilizes the laser diffraction/scattering
semiconductors, and polymers, and the number of particulates (with a diameter 1 µm or more). method and incorporates a UV semiconductor laser
specimens to be measured in each field is diverse. As a result, the compression characteristics of light source (wavelength 375 nm), thus enabling the Normalized Particle Amount
For example, with batteries, the crystalline structure anode active material particles can be measurement of particle sizes of 10 nm to 300 µm.
of cathode and anode active materials and their evaluated. Also, by adding on the side Various options, including a high-concentration
orientation and size can be analyzed. With separators, observation kit (option), the fracture process sample measurement system and software for Particle Diameter(nm)
material quality can be qualitatively analyzed and of anode powders can be observed and gathering data at 1-second intervals, are also Evaluation of the Presence of 5 µm Particles Contained in a 90 nm
the degree of crystallinity, orientation, and other compression characteristics data can be linked available. Particulate Sample
properties can be analyzed as well. A polycapillary with images.
optical system also enables high-sensitivity analysis.
I (CPS) 25000 [Group: LIB, Data: cathode material (wide)] Force - Displacement Curves Separation/Quantitation of Lithium-Ion Rechargeable Battery Electrolytic Solution Components
20000
Ion Chromatograph
15000 This system can be used to separate and quantitatively analyze inorganic ions 5.0 mAU
Force (mN) 4.5 Peak
10000 contained in organic electrolyte solutions. 4.0 1. PF6 -
By combining the optimum units from a substantial product lineup, a wide
5000 3.5
measurement range from the ppb level up to the percent order can be 3.0
0 accommodated. In addition to measuring concentration, systems can be 2.5
10 20 30 40 50 60 70 80 90 100
θ-2θ (°C) 2.0
Displacement (µm) configured to measure the distribution of polymer molecular weights. 1
Diffraction Pattern of Lithium-Ion Rechargeable Battery/ 1.5
Cathode Materials Compression Test Results of 3 Types of Separators 1.0
0.5
0.0
Non-Contact Elongation/Width Measurement of Nanoparticle Measurement of Cathode Materials -0.5 0.0 2.5 5.0 7.5 10.0 12.5 15.0 17.5 min
Films and Foil Used as Separators
IG-1000 Plus Single Nanoparticle Size Analyzer LC Analysis of PF6- (Hexafluorophosphate Ions) Contained in Electrolytic Solution
Precision Universal Testing Machines With ternary system cathode materials
TRViewX used in lithium-ion rechargeable
Video Type Non-Contact Extensometer/Width Sensor batteries becoming more and more
The elongation and width of polymer films minute, this analyzer is suited to Tensile Strength Evaluation of Electrolyte Films High-Sensitivity Inorganic Gas Analysis
used as separators for lithium-ion rechargeable particle size measurement in the nano MST-1 Micro Autograph GC-2014
batteries can now be measured. Plastics, order, the final target measurement Gas Chromatograph
metals, foil, etc. can also be measured in level. This tester is ideal for the strength evaluation of
addition to films. electronic parts, microdevices, ultrafine wires, and This instrument can measure down to the ppm
other micro specimens. High-precision drive and region, which could not be analyzed by
measuring systems enable the measurement and conventional TCD. It can measure CO in gas
control of micro test forces and displacement to emissions from reformers with high sensitivity.
Thermal Characteristics Evaluation of Electrolytes, Separators, and Other Polymer Materials for Lithium-Ion Rechargeable Batteries obtain various data. Also available are a
stereomicroscope and an X-Y stage for simplifying
DSC-60 Plus/60A Plus Differential Scanning Calorimeter TMA-60/60H Thermal Analyzer
the positioning and observation of specimens.
This calorimeter is useful for evaluating thermal This instrument is useful for evaluating the
characteristics such as melting of the separators expansion/contraction behavior of battery
and transformation/decomposition of electrolytes members, especially separators, caused by
during heating. Features of this calorimeter heating. The newly adopted digital displacement
include a low noise level of 0.5 µW or less, high sensor demonstrates little temperature drift, thus
sensitivity, and high resolution. assuring stable measurement. High linearity is
The cooling process can also be easily measured also achieved in spite of its ±5 mm wide Evaluation of Reformers
since the calorimeter has a built-in liquid measurement range.
IRA-208+CFP-8000 CGT-7100
nitrogen cooling trough.
Multicomponent Continuous Gas Analyzer Portable Continuous Gas Analyzer
Continuously measure three components, CO, CO2, In addition to measuring low concentrations of CO
CH4, emitted from the gas reformer. emitted from the gas reformer, this portable size
infrared gas analyzer can also measure up to two
other components, such as CO2 and CH4.
Measurement of Melting of 3 Types of Separators Measurement of Contraction Behavior of Separators by TMA
Suspension and Other Power Engines, Motors, and Lithium-Ion Rechargeable Electronic Instrumentation
Bodies and Interiors
Transmission Systems Power Sources Batteries and Fuel Cells Components
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