SSTCG series Thermal Grease (SSTCG) is the latest high-performance
thermal paste, not only has excellent thermal conductivity with high thermal
performance, fully insulated non-conductive, effectively prevent
short-circuiting of electronic parts, and convenient smear, can be widely
applied to any product with a thermal interface; SSTCG series thermal paste is
the best guarantee for both thermal performance and operating safety of the
product.
Product Features:
- Easy handling
- Not easy to dry out and hard
- Highly stability
- Non-toxic
Thermal paste ingredients:
General thermal paste is composed of silicone oil and magnesium, while Division
I developed thermal paste with silicone oil and alumina.
Applications:
- NB / PC / Tablet PC
- Autotronics
- Telecommunication
- LED lighting
- Power supply
- LCD TV
- Audio and video components
- Servers / Workstations / Infrastructure
- Mobile phone / GPS navigation and other portable devices
The role of thermal paste:
The role of thermal paste is - as the heat source and heat sink intermediate
heat conduction medium, for example the CPU, the CPU and the heatsink when two
dissimilar materials in contact with the base, although the process will go
through the polished surface, through still under the microscope see uneven
surface, even pressure is bigger, the middle will still exist many gaps, and
these gaps will be filled with a lot of air, it will reduce the thermal effects,
the role of thermal paste is used to fill these small gaps, so the heat source
can be more rapidly transmitted to the heat sink.
How much thermal grease have to use?
Well controlling the power of squeezing grease is the most fundamental step.
We suggest to observe the area of circle of coating before to squeeze grease.
According to the formula of thermal conduction, Q=KA x T/L. It can get the
best effect of thermal conduction by making the widest coating area A and the
thinnest thermal grease.
- Q= means the thermal flow of whole system. (W)
- T= means the temperature division from up and down site of single
material.
- K= means the thermal conduction coefficient. (W/Mk)
- L= means the thickness of thermal grease
- A= means the area of coating. (m2)
- Cleaning the surface of coating area by dry cloth. It can avoid to
influence the thermal effect from dust and dirt.
- The thermal grease have to be squeezed on the center of surface. Don’t
squeeze from right to left, it is because that the pressure from top would
push the thermal sinking grease out of the bound, and influence the
capacitance.
- Put the heat sinking on. Using the ductility of thermal grease to fill
the small space to be a circle area. Remember not to use small spatula or
fingerstall to make it flat. Because that small spatula and fingerstall
would not avoid to let air in and decrease the thermal effect.
- It have to observe the coating circle area before using the thermal
grease. Then let the diameter of coating circle area
- close to the length of surface. Calculating the quantity of
thermal grease by sheet one as below.
- If squeezing too much grease, cleaning it by dry cloth.
| Item |
Methods |
SSTCG-010A |
SSTCG-020A |
Unit |
| Appearance |
- |
Gray Grease |
Gray Grease |
- |
| Viscosity |
Brookfield HB S70@30~100rpm |
30000~36000 |
38000~55000 |
cps |
| Weight Loss |
120℃/7d |
≦1 |
≦1 |
% |
| Specific Gravity |
JIS K6249 |
2.50 |
2.80 |
g/cm3 |
| Thermal Conductivity |
ASTM D5470 Modified |
1.0 |
2.0 |
W/m.K |
| Withstand voltage |
ASTM D149 |
>3 |
>6 |
KV/mm |
| Temperature Range |
- |
-40~+150 |
-40~+150 |
℃ |
| RoHS,Halogen free |
SGS test |
Free |
Free |
- |