Page 16 - Automotive Solution for Automotive
P. 16
Single Nanoparticle Size Analysis Surface Observation of Lithium-Ion Rechargeable Compression Evaluation of Lithium-Ion Rechargeable Batteries and Fuel Cells
Battery Separators/Electrolytes
IG-1000 Plus Single Nano Particle Size Analyzer Battery Compression Evaluation Instrument
SPM-9700HT Scanning Probe Microscope
This instrument can rapidly measure the particle size of Testing on this instrument differs from compression failure evaluation in that changes in battery characteristics and generating efficiency, etc. in the compression process are measured.
nano-particles. Such measurements are essential to increase the This microscope supports the surface observation of separators and electrolyte The compression plate has an improved parallel structure for thin films, and electrical resistance is reduced by vapor-deposited gold faces.
performance of cerium oxide used as a co-catalyst in three-way films as well as electrodes and semiconductors, and can easily observe 3D shapes Current and voltage generated when a specimen is compressed are measured.
catalysts for automobiles. in air or liquid at high magnification. Even nonconductive objects do not need to
be coated or pretreated in other ways. Another feature of this microscope is that Crosshead
the electrical characteristics of samples can be measured by a probe tip. It can Compression load jig
also be upgraded to an environmentally controlled scanning probe microscope.
Insulation Upper spherical seat type
compression plate
Magnet scale contact face
PC
Vapor-deposited
gold faces
Magnet scale
Compression
plate
Resistance tester Table
X-Ray Non-Destructive Inspection and Analysis of Battery Modules, On-Board Electronic Components,
and Die Cast Parts
Particle Size Distribution (Volumetric Basis) inspeXio SMX-225CT Series Microfocus X-Ray CT System
Normalized Particle Amount Specimen (1) Comparison of 3 Types of Separators Specimen (3) X-ray CT systems for industry can observe the internal Electrolyte Film
structure of target objects non-destructively. As a result,
they are very useful for accurately ascertaining the inside
Specimen (2)
of particularly complex electrical machinery and
Particle Diameter(nm) electronic products.
Catalyst Gas
Measurement of Particle Size Distribution of Cerium Oxide Layer Diffusion
Layer
Room temperature 125°C 140°C Fuel Cell MEA
Changes Caused by Heating of Specimen (1)
18650 Type Lithium-ion battery Rectangular Lithium Polymer Battery (for Smartphones)
Actual Battery Tests (Nail Penetration/Crush) and Fatigue Testing of Various Actual Parts and
Materials for Automobiles
Fatigue and Endurance Testing Machine EHF-UM/UV Series/Fatigue and Endurance Testing Machine EMT Series
MPR Image
These testing machines evaluate the durability of the component members of batteries and finished battery products against repeated stress, and can apply accurate
loads (e.g. test force, displacement) at high speed. They also support nail penetration testing and crush testing. Moreover, they are compatible with
constant-temperature environments. The hydraulic model (EHF-U series) is ideal for large-capacity specimens, whereas the easy-to-install electromagnetic model (EMT
series) is ideal for small-capacity specimens.
MPR Image oblique Image VR Image
FOV=ø18.4 mm
MPR Image FOV=ø4.4 mm VR Image
EHF-UM/UV Series EMT Series
Suspension and Other Power Engines, Motors, and Lithium-Ion Rechargeable Electronic Instrumentation
Bodies and Interiors
Transmission Systems Power Sources Batteries and Fuel Cells Components
16 This page may contain references to products that are not available in your country. Please contact us to check the availability of these products in your country. 17
