Post on 05-Feb-2021
Inorganics-2 〜Carbon〜
Graphite ElectrodesCarbon
Structure Control
Purification
Mixing/Dispersion
High-Temperature
Heat Treatment
Shocaraiser™Granular Graphite
Granular-M
Molding
31
Graphite Electrodes
Graphite electrodes are conductive members of an electric steel-making furnace, which recycles scrap iron to manufacture steel products.
Since graphite electrodes are used under high temperature and oxidation atmosphere, they require low electric resistivity and thermal shock resistance.
The product is a large-size pillar-shaped graphite material with a maximum diameter of 800 mm and length of 3,000 mm.
High-temperature heat treatment technology
Raw materials are extruded, baked and then heat-treated at high temperature in a graphitizing furnace.We have the know-how (energization schedule, inter-electrode connection method, protection of the furnace body from high heat, etc.) to control the properties of the final products and heat-treat the materials with good yield.
Product Example Our technologies
32
Graphitization Furnace
Advanced Battery MaterialsArtificial Graphite Anode Materials
LIB Packing Materials
SeparatorsSCMG™
VGCF™SPALF ™
SDX™Carbon Coated Foil
Vapor-grown Carbon Fiber
Carbon Structure Control
Film/Crystal Growth
High-Temperature
HeatTreatment
Mixing/Dispersion
Casting/Molding
Micro-particulation
Laminate/Printing
Showa Denko Packaging Co., Ltd.
45
Anode Material for Lithium Ion Secondary Batteries 〜SCMG™〜
2”φ
Fine particle treatment technologyTechnology to control the particle size in accordance with various materials
Heat treatment technologyOur original technology developed for manufacturing graphite electrodes Primary calcination technology with atmospheric controlSecondary calcination technology to control the carbon structure
Heat treatment facilities Fine particles with carbon structure controlled
Before cycles After 300 cycles
SCM
G™
Nat
ural
gr
aphi
te
We provide a negative-electrode carbon material that suffers no degradation by charge-discharge cycles.
Capacity
Char
ge/d
isch
arge
cyc
le c
hara
cter
istic
s
Artificial graphite
XR-s
Natural graphite
SCMG™AF-C Soft carbonHard carbon
For EV, PHEV, HEV, ESS
For mobile phones
BH
40
60
80
100
0 100 200 300
Batt
ery
capa
city
re
sidu
al r
atio
(%
)
Charge/discharge cycles
SCMG™Natural graphite
Lithium ion secondary battery negative-electrode material SCMG™ (Structure Controlled Micro Graphite)Lithium ion secondary battery negative-electrode material SCMG™ (Structure Controlled Micro Graphite)
Mesoscopic graphite
Product example Our technologies
46
SCMGTMSCMGTM
Strategic Technologies
Catalyst
Mixing/Dispersion
Film/CrystalGrowth
PolymerizationControl
MolecularStructure
52
Fullerene
Nanocarbon
CarbonStructureControl
Thin Film Process
Frontier Carbon Corporation
High-Performance
Catalysts
Purification
Catalyst Group
Thin Film
Process Group
Nano-carbonGroup
Institute for Advanced and Core Technology
TM
Strategic technology ~Carbon material~Product examples Our technologies
N
N
N
N
ON
O
OtBu
N
N
N
tBuO
O
O
OtBu
OtBu
O
O
O
Frontier Carbon Corporation
Mitsubishi Corporation◎World-class sales and marketing
capabilities
Showa Denko K.K.◎Nano carbon technology◎Able to develop, produce, and
supply new products satisfying customers’ requirements
High-temperature reaction control technology
Separation and refinement technologies
Organic synthesis technology
Vacuum processing technology
Fine particle treatment technology
Crystallization technology Dispersion technology Measurement and
evaluation technologies Surface analysis
technology Chemical reaction
simulation technology
SemiconductorsNano lithography,
material for lower films
Sports gearGolf clubs,
rackets, etc.
Other industrial usesAdditives to polymers, rubber, and metal; hard carbon films
LubricantsAdditive to lubricants,
waxes, etc.
EnergyOrganic photovoltaic
panels,fuel cells
Fullerene products
Fullerene
53