High Thermal Conductive Graphite Sheet
Preliminary
HIGH THERMAL CONDUCTIVE GRAPHITE SHEET
Tgon™ 9000 is a synthetic graphite thermal interface material consisting of carbon
in-plane mono-crystal structure.
Tgon™ 9000 is ultra-thin, light-weight, flexible and offers excellent in-plane thermal
conductivity. Ideal for variety of heat spreading applications where in-plan thermal
conductivity dominates and limited spaces.
Tgon
TM
9000
FEATURES AND BENEFITS
Thermal Conductivity: 500 to 1900W/mK
4 times thermal conductivity than copper
Reduce hot spots and protect sensitive areas
Enables slim device designs with ultra-thin
of 17um
• Light weight with density of 2.05~2.25
5g/cm³ for thickness of 17um & 25um
• Flexible (Withstand more than 10,000 times
bending with R=5mm)
• Ease of manufacturing for high volume
production
•
•
•
•
MARKETS
•
•
•
•
•
Handheld devices
Mobile computing
Display
Lighting
Telecom
PRODUCT NAME AND KEY PROPERTIES AS BELOW:
Product Name
Thickness (mm)
X,Y
Thermal
direction
conductivity
(W/mK)
Z direction
Thermal diffusivity (cm²/s)
Density (g/cm³)
Specific heat (50˚C)(J/gK)
Heat resistance (˚C)
Extensional
strength
(MPa)
X,Y
direction
Z direction
Test
Method
ASTM
D374
ASTM
E1461
ASTM
E1461
ASTM
D792
ASTM
E1269
Over 100
hours of
testing
ASTM
F152
ASTM
D2176
ASTM
E1269
Tgon 9017
0.017+/-
0.005
Tgon 9025
0.025+/-
0.005
Tgon 9040
Tgon 9070
Tgon 9100
0.1+/-0.01
500~700
15
7
0.7~1.0
0.85
400
19.2
0.65
10,000 or
more
96000
0.04+/-0.005 0.07+/-0.01
700~1000
15
7
1.0~1.3
0.85
400
20
0.4
10,000 or
more
96000
1650~1900 1500~1700 1150~1400
15
9
2.05~2.25
0.85
400
39
0.1
10,000 or
more
20000
15
9
2.05~2.25
0.85
400
28
0.4
10,000 or
more
20000
15
8
1.65~1.85
0.85
400
23
0.4
10,000 or
more
20000
Bending test(times)
(R5/180˚)
Americas: +1.800.843.4556
Europe: +49.8031.2460.0
Asia: +86.755.2714.1166
CLV-customerservice@lairdtech.com
www.lairdtech.com/thermal
Electric conductivity
(S/cm)
High Thermal Conductive Graphite Sheet
Preliminary
PRODUCT STRUCTURE
• There are two types of product structure as follows
• Tgon™9000 series: Tgon™9000 sheet only
• Tgon™9000PA series: Tgon™9000 with one-side
PET film & one-side adhesive
• Below is the product structures available:
Type
Graphite Only
Tgon 9000 series
Laminated (Insulation & Adhesive)
Tgon 9000PA series
Tgon
TM
9000
Structure
Features
Thickness
Standard Size
Graphite Sheet
Graphite: 17µm, 25µm, 40µm,
70µm, 100µm
180 x 220mm
With PET film & Adhesive
PET film: 5µm, 10µm
Adhesive: 5µm, 10µm, 30µm
Graphite: 17µm, 25µm, 40µm, 70µm,
100µm
180 x 220mm
• Die-cut edge options:
Type
Flush Edge
Tgon 9000PA series
Envelope Seal
Tgon 9000EPA series
Structure
PART NUMBER INFORMATION
T
g
o
n
9
0
2
5
P
A
,
1
0
1
0
Adhesive
Thickness
Product Code
Graphite Thickness
17=>
25=>
40=>
70=>
100=>
THR-DS-TGON 9000 032415
17µm
25µm
40µm
70µm
100µm
PA
Structure &
Edge Options
Laminated
with PET &
Adhesive with
flush edge
PET
Thickness
05=> 5µm
10=> 10µm
05=> 5µm
10=> 10µm
30=> 30µm
EPA Laminated
with PET &
Adhesive with
envelope seal
Any information furnished by Laird and its agents is believed to be accurate and reliable. All specifications are subject to change without notice. Responsibility for the use
and application of Laird materials rests with the end user, since Laird and its agents cannot be aware of all potential uses. Laird makes no warranties as to the fitness,
merchantability or suitability of any Laird materials or products for any specific or general uses. Laird, Laird Technologies, Inc or any of its affiliates or agents shall not be liable
for incidental or consequential damages of any kind. All Laird products are sold pursuant to the Laird Technologies’ Terms and Conditions of sale in effect from time to time,
a copy of which will be furnished upon request. © Copyright 2014 Laird Technologies, Inc. All Rights Reserved. Laird, Laird Technologies, the Laird Logo, and other marks
are trademarks or registered trademarks of Laird Technologies, Inc. or an affiliate company thereof. Other product or service names may be the property of third parties.
Nothing herein provides a license under any Laird or any third party intellectual property rights.
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