GRAPHITE

Panasonic graphite is fine and higher purity synthetic graphite made and crystallised from polymer film by unique "Solid – Solid phase" production method (patented).

GRAPHITE

GRAPHITE

Panasonic graphite is fine and higher purity synthetic graphite made and crystallised from polymer film by unique "Solid – Solid phase" production method (patented).

Highly Oriented Graphite as Radiation Optical Device (PGC)

Features

  • Patented unique "Solid – Solid phase" production method
  • Homogeneous and uniform single crystalline properties
  • Various profiles like flat, single or double bent

Appl.

  • X ray monochromator
  • Neutron monochromator
  • Neutron filter
1d focusing monochromator for TriCS
* Courtesy of SwissNeutronics AG
Photo:Highly Oriented Graphite as Radiation Optical Device (PGC)

Highly Oriented Graphite as Radiation Optical Device (PGC)

Features

  • Patented unique "Solid – Solid phase" production method
  • Homogeneous and uniform single crystalline properties
  • Various profiles like flat, single or double bent

Appl.

  • X ray monochromator
  • Neutron monochromator
  • Neutron filter
1d focusing monochromator for TriCS
* Courtesy of SwissNeutronics AG
Photo:Highly Oriented Graphite as Radiation Optical Device (PGC)

Graphite Plate (PGP)

Features

  • Much higher heat conductivity than copper
  • Highly heat transfer even thickness (0.01~1mm)
  • Direction free heat conduction
  • Lighter weight than aluminum

Appl.

  • Heat transfer alternate material from heat pipe
    for mobile instruments like tablet, smart-phone
  • Heat radiation material from CPU, electric devices,
    motion generation heat like motor of robot arm
Photo:Graphite Plate (PGP)

Graphite Plate (PGP)

Features

  • Much higher heat conductivity than copper
  • Highly heat transfer even thickness (0.01~1mm)
  • Direction free heat conduction
  • Lighter weight than aluminum

Appl.

  • Heat transfer alternate material from heat pipe
    for mobile instruments like tablet, smart-phone
  • Heat radiation material from CPU, electric devices,
    motion generation heat like motor of robot arm
Photo:Graphite Plate (PGP)

Pyrolytic Graphite Sheet (PGS)

Features

  • Much higher heat conductivity
    (2~5 times than copper, 3~8times higher than aluminum)
  • Easy process and assemble due to light weight and flexible
  • Low thermal resistance, Compliant with RoHS

Appl.

  • Heat transfer alternate material from heat pipe
    for mobile instruments like tablet, smart-phone, DSC, DVC, PC
Photo:Pyrolytic Graphite Sheet (PGS)

Pyrolytic Graphite Sheet (PGS)

Features

  • Much higher heat conductivity
    (2~5 times than copper, 3~8times higher than aluminum)
  • Easy process and assemble due to light weight and flexible
  • Low thermal resistance, Compliant with RoHS

Appl.

  • Heat transfer alternate material from heat pipe
    for mobile instruments like tablet, smart-phone, DSC, DVC, PC
Photo:Pyrolytic Graphite Sheet (PGS)

Carbon Variety

Heat Transfer

Heat Transfer

Heat Spread

Heat Spread

Heat Transfer Capability

Higher Heat Conductivity
Lighter Weight

Characters

Example of parts mounted substrate

Adoption example onto the substrate for thermal management:
Owing to the higher heat conductivity of genuine graphite, heat is effectively reduced from heat spot due to its hastily heat transfer.

Heat radiation part